Feasibility study for industrial development at Fourth of July Creek, Seward, Alaska

[From the U.S. Government Printing Office, www.gpo.gov]

FEASIBILITY STUDY

FOURTH OF JULY CREEK
INDUSTRIAL DEVELOPMENT

SEWARD,- ALASKA

............."

*521-

HC
108
S48 PREPARED FOR
F43 CITY OF SEWARD, ALASKA
1979
BY
ct

ARCTIC ENVIRONMENTAL ENGINEERS

MARCH 1979

FEASIBILITY STUDY

FOR

INDUSTRIAL DEVELOPMENT

FOURTH OF JULY CREEK

SEWARD, ALASKA

MARCH 1979

"The preparation of this report was financed in part by funds
from the Office of Coastal Zone Management, National Oceanic
and Atmospheric Administration, U.S. Department of Commerce,
administered by the Division of Community Planning, Department
of Community and Regional Affairs."

ALASKA DEPT. OF COMMUNITY AND REGIONAL AFFAIRS
HC108
.S48
R43
1979
C.1

PREPARED FOR

CITY OF SEWARD, ALASKA

US Department of Commerce
NOAA Coastal Services Center Library
2234 South Hobson Avenue
Charleston, SC 29405-2413

ARCTIC ENVIRONMENTAL ENGINEERS

ANCHORAGE, ALASKA 99502

TABLE OF CONTENTS

PAGE

I INTRODUCTION 1

II SUMMARY 2

III REGIONAL SETTING 4

IV CITY OF SEWARD 7

V PHYSICAL ENVIRONMENT 12

VI LAND OWNERSHIP AND STATUS 21

VII GEOTECHNICAL SURVEY & EVALUATION 31

VIII TRANSPORTATION 36

IX UTILITIES 58

X CONCEPTUAL DEVELOPMENT PLANS 67

XI RECOMMENDATIONS 81

REFERENCES 83

APPENDIX 84

CHAPTER 1

INTRODUCTION

Seward has been recognized as a key city for support of the
Outer Continental Shelf (OCS) development in the Gulf of
Alaska. On shore facilities for industry support and pro-
cessing will be required, but land for expansion in Seward is
extremely limited. The Fourth of July Creek area was annexed
*by the City of Seward in 1977 because of its potential for
development as an industrial park.

This study was funded by the Alaska Department of Community
and Regional Affairs under the Coastal Zone Management Impact
Program. The primary objective was to analyze the Fourth of
July Creek area for its feasibility as an industrial park
location, initially to support the OCS oil exploration,
development and production program and eventually to handle
general cargo and support other industrial activities.. The
report has been expanded to include other major industries at
the si.te as well as OCS oil exploration. Although the study
is primarily factual in nature, several preliminary development
plans were prepared and are presented for analysis of costs.

CHAPTER II

SUMMARY

The Fourth of July Creek area has excel lent potential for develop-
ment as an industrial park. Some of the many outstanding features
of the site are: excellent soils, availability of good water, ease
of waste disposal, availability of,good fill material at the site,
moderate climate, large waterfront area with deep water for port
facilities, moderate tides, and good wind conditions for air
emission dispersion. The site is located near the business and
residential areas of Seward with existing health, school, police,
fire and other services and established telephone and electric
utilities. Rail, highway, air and sea-going transportation are
all available in the area.

The area also has disadvantages that must be overcome and these
include location in a Zone IV seismic zone, potential for coastal
and creek flooding, restrictions imposed because of salmon use
of the creek, possibility of minor submarine landsliding at the
shorline, avalanche danger on the south wall of the valley, no
existing access to the area, lack of local construction labor in
certain trades and insufficient housing to absorb a rapid population
growth. These disadvantages can be overcome with proper planning
and engineering and do not significantly detract from the site's
suitability.

Costs for developing the site are high, ranging from $20 million
to $35 million for basic utilities and access, depending on the
industry selecting the site and its needs. The first industry
to locate at Fourth of July Creek must- be a large industry capable
of absorbing the high opening costs. Funding is available for some
of thedevelopment costs and other costs may not need to be borne
directly by industry, so the initial costs to industry to open
the site will be significantly less than the figures mentioned
above. The actual feasibility of the Fourth of July Creek area
as a site for any specific industry will depend on the industry's
economic situation and the amount of city, state and federal funding
available.

Four types of industry h.ave been analyzed as potential candidates
for locating at the site including fisheries and harbor facilities,
petrochemical industries, bulk handling facilities and heavy
industrial development. Fisheries development is a very viable
alternate for the Fourth of July Creek area. A small boat harbor,
ship repair yards and a hatchery are compatible with fishery
development. The site is capable of supporting petrochemical
industry in a number of ways including material handling, storage
areas and processing. This report analyzed a refinery at the site

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utilizing both the valley floor and the upper "bench" area.
Bulk material handling facilities at the site could receive
coal, ore, or other materials from interior Alaska by rail,
stockpile the material and load vessels for transport to
world markets. When Alaska's resources are developed there
will be a need for a facility of this type as none now exist.
Finally, the report addressed a heavy industrial facility at
Fourth of July Creek. A metal refinery was chosen as the
specific industry because of resources availability and the
ideal location for sea transportation. The site has high
potential for this type of industry.

CHAPTER III

REGIONAL SETTING

The Fourth of July Creek study area is located.across Resurrection
Bay from Seward in South@-Central Alaska. Resurrection Bay of the
Gulf of Alaska is a deep water bay surrounded by mountainous
terrain on the southeast coast of the Kenai Peninsula. Figure
III-1 shows the vicinity and Figure 111-2 shows the study area
at Fourth of July Creek.

The area has a maritime climate influenced by the.warm Japan
Current.. Tides in Resurrection Bay are not so extreme as found
at Anchorage, and are similar to those occurring at Seattle. The
Seward region is seismically active and is classified as.a seismic
Zone IV,,the same as Anchorage.

Seward and the Fourth of July Creek area are remote from the
population centers of the rest of the United States. Within the
State of Alaska, however) only Seward and Anchorage are served
by all major forms of transportation: air, highway, rail and
water.

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CHAPTER IV

CITY OF SEWARD

HISTORY

Sew ard was established in 1903 by a group of individuals who
proposed to construct a railroad to the coal and gold fields of
the interior. The railroad construction provided an economic
base for growth and in 1912 Seward was incorporated as a first-
class city. Construction and financing problems defeated the
railroad after nearly one hundred miles of track had been laid,
and in 1915 the U.S. Government purchased the line. By 1925 the
railroad was extended to Fairbanks.

After the railroad's completion, Seward experienced a slow but
steady growth until the late 19501s. Many of the public works
and railroad rehabilitation projects started in the early 50's
were completed at this time resulting in a rapid decline in
employment. The 1964 earthquake destroyed approximately 90
percent of Seward's industry, including the fish processing
plants, railroad yards, fishing fleet, docks, warehouse and oil
tank farms. Employment plunged afterthe earthquake and did
not regain pre-earthquake levels until 1974.

GOVERNMENT

Seward is located within the Kenai Peninsula Borough. The Kenai
Borough is a second class borough with areawide powers for
education, planning, platting, zoning, tax assessment and
collection, and solid waste disposal. The City of Seward has
advisory review authority for planning, platting and zoning.

The City of Seward was incorporated in 1912 and is a homerule
first class city. Seward exercises the powers of police and
fire protection, boat harbors, ports, road maintenance and health
facilities. The city also operates electric and water utility
services. Seward has a council-manager form of government com-
posed of six elected council members, an elected Mayor and an
appointed City Manager.

Seward's 1978 fiscal year city tax rate was 13.5 mils, with the
borough tax set at 5 mils. The general obligation bonded indebted-
ness of Seward for fiscal year 1978 was 4.2% of assessed value.
Revenue bonds accounted for an additional 1.9% of assessed value.

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POPULATION

The current population of Seward is estimated to be approximately
2500 persons. The average household size is 2.8 and the average
age is 31 years. Seward's population has a higher percentage
of over 60 citizens than Alaska as a whole. The population has
grown at a relatively constant 3% per year since the mid 19601s.
The population of Seward is rather stable and the average resident
has lived in Seward more than 1.3 years.

EMPLOYMENT

Seward's economy is based primarily on the natural resources of
the area (timber and fishing), tourism, and on Seward's role as a
major port facility. The Alaska Skill Center and the hospital/
nursing home are also major employers.

Seward has a relatively high unemployment rate, but the labor
force participation rate has increased steadily in recent years.
Relatively little of the population is employed in contract
construction.

HOUSING

Approximately two thirds of the-dwelling units in Seward ate
conventional single family homes. The remaining third is com-
prised of multi-family dwellings, mobile homes and other. The
vacancy rate was 4.3% in 1976. Seward has a very low rate of
new housing starts and a majority of units are older homes.
Housing for any population growth will require new housing con-
struction. Sufficient land for a population of about 15,000
does exist in Seward and along the highway north of the City.

TRANSPORTATION

Seward is connected to Anchorage and Kenai via the Seward Highway.
Anchorage is approximately 130 miles away and Soldotna, 95 miles.
The Seward Highway is part of the Federal Aid Primary Road System
with an estimated capacity of 14,000 vehicles per day. The
annual daily traffic now averages 800 to 3,000 vehicles per day.
The State of Alaska Six Year Capital Improvement Program lists
numerous reconstruction projects for upgrading the Seward highway
to a 40-foot wide section consisting of two 12-foot traffic lanes
and.two 8-foot paved shoulders.

Seward is the southern terminus of the Federally owned Alaska
Railroad. The railroad operates a break-bulk port which handles
equipment, palletized material and other large items. The rail-
road has a 300 acre reserve, 100 acres of which are available for

-8-

development. The railroad handled an estimated 350,000 tons in
1976 and could handle considerably more. The Alaska Railroad
indicates that three to four 5,000 ton freighters can be handled
per day. If a unit train concept is utilized, 5,000 ton trains
can depart every four hours.
Seward has several major docks: the Alaska Railroad dock (2-600
foot berths, 1-200 foot berth, 35 feet deep), the City dock (berth
for 100 foot vessels, 13 feet deep) and the Fourth Avenue dock
(berth for 400 foot vessels, 80 feet deep). The Alaska Railroad
east berth has two cranes with capacity of 45 short tons and 105
4q, foot radius reach. The railroad has 24000 square feet of warehouse
and 112,000 square feet of paved outdoor storage area. Mobile
cranes up to 140 ton capacity are available.

Seward is served by a general aviation airport constructed and
maintained by the Alaska Department of Transportation, Division of
Aviation. There are two asphalt runways, the primary one"is 4540
feet long and 100 feet wide while the secondary is 2300 feet long
and 75 feet wide. A small asphalt apron exists just west of secon-
dary strip. Runway lights are the medium intensity type. No
navigation or approach aids exist so the airport is closed when
conditions fall below those required by Visual Flight Rules operation.

Jraffic at the airport consists primarily of private light aircraft
operations although Alaska Aeronautical Industries (AAI) does provide
commuter service between Anchorage and Seward. AAI uses twin turbine
engined DeHaviland otters as their commutor craft. Lear jet executive
aircraft and Hercules cargo craft have landed on the airstrip under
private contract, however, the primary strip is too short to obtain
FAA approval for scheduled flights of these and similar types of
aircraft.

SCHOOLS

Seward has both elementary and high schools A new high school
with a capacity of 300 students have been r;cently completed. The
elementary school has a capacity of 500 students. Enrollment is
about 60% capacity at each school and both schools can absorb a
substantial amount of growth.

The Alaska Skill Center has operated in Seward for a number of
years providing training in the building trades, food services,
office occupations, mechanics, and oil field utility and technical
skills. The Skill Center has a capacity of,200 students and
provides room and board for the students.

HEALTH

Seward's General Hospital has 33 beds and the occupancy rate has
averaged about 18%. Based on national hospital standards, the
capacity of the hospital is adequate for a population of about

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5,000. Both in-patient and out-patient care is provided; X-ray,
emergency, and laboratory facilities are adequate to serve the
existing population. Emergency evacuation service is available
to Anchorage and volunteer ambulance service is provided for the
Seward area.

With additional population growth, Seward will need additional
dental facilities and an expanded public health service office.
There are two doctors in Seward whose current case loads are
said to be near capacity.

POLICE & FIRE PROTECTION

Seward has a police department sufficient for a population of
3,000 persons. It operates on a 24-hour basis. The fire depart-
ment has a full-time chief with 20 volunteer firemen. The
department has two pumper trucks and a panel truck. Seward has
a fire rating of S.

ELECTRICAL UTILITY

Seward's electrical power is purchased from Chugach Electric via
a transmission line which generally parallels the Seward Highway.
Seward owns three diesel generators with 5,500 KW capacity for
emergency and peak load. The present mainline transformer has a
capacity of 5,000 KW.

The capacity of the present system is just adequate to meet
current demands. A major upgrading of the system is scheduled
to be complete by the fall of 1979. These improvements will
include a new transformer and new feeder voltage regulators to
inIcrease capacity to 7500 KVA. Future improvements scheduled for
1981 will increase system capacity to a minimum of 12,000 KVA
with upwards of 35,000 KVA possible if the demand possibility
exists.

TELEPHONE UTILITY

The Alaska General Telephone Company serves Seward and currently
operates about 1,300 stations for 800 customers. Long distance
communication facilities consist of 26 trunk lines tied to the
Anchorage exchange. During normal business hours, they are used
at near capacity. The utility indicates it is capable of
expanding the system with a lead time of.six to nine months.

WATER

Seward has an excellent water system with high volume capacity
drawing from a combination of wells and surface supplies. Two
high elevation storage tanks provide 600,000 gallons of water
storage. The existing system is being expanded and improved

_10-

under the guidance of a comprehensive water system plan
developed in 1975. Additional mains into industrial areas
and more storage capacity are now being designed. The system
is being upgraded to accommodate a population of 10,000.

WASTEWATER

Seward is provided with a gravity sewer system throughout the
community,. No treatment is presently provided and raw sewage
is discharged into Resurrection Bay through five outfalls. The
City has adopted a Comprehensive Wastewater Facility Plan to
meet current Federal Regulations requiring secondary treatment.
Engineering design has begun on approximately seven miles of
new interceptors, pump stations and an aerated lagoon system
to be located at Lowell Point, south of the City. Construction
is scheduled for 1979 thru 1980. The interceptor system is
being designed for a saturation population of 20,500 while the
treatment lagoon will be initially,constructed to meet the
requirements of 5,000.with future expansion to accommodate a.
population of 10,000.

CHAPTER V

PHYSICAL ENVIRONMENT

The purpose of this chapter is to summarize all the major factors
regarding the physical and biological environment of the Fourth
of July Creek area. Knowledge and understanding of the physical
environment is a prerequisite for the proper growth. of the study
area. Knowledge of prevailing climatic conditions can help
prevent excessive air pollution. Understanding the area's
geology can assure adequate water, firm building foundations
and safety from floods and avalanches. The information presented
here comes from many sources and is only a summary of current
knowledge. For more detailed information the reader is referred
to the bibliography.

TOPOGRAPHY

The study area occupies approximately 1800 acres of land located
at the hea,d of Resurrection Bay almost directly across from
Seward on the Fourth of July Creek delta. The area is surrounded
by rugged mountains and the potentially developable land lies
in two distinct areas. The larger (lower area) incorporates
the Fourth of July Creek valley plain. This land slopes to the
west from elevation 200 feet at the base of the mountains to sea
level at the shoreline. No bluffs occur at the bay and the low-
land has a gentle gradient over its entire area. The usable
valley floor with Fourth of July Creek remaining at its current
location comprises approximately 650 acres of the study area. If
the creek is relocated, the area has approximately 700 acres of
usable land.

The second developable area is a bench located to the north of
Fourth of July Creek. This bench is a transitional area between
the mountains and the valley floor. The bench slopes gently from
elevation 900 at the base of the mountains to elevation 700 feet
where a steeper slope drops-to the valley floor. The bench covers
an area of approximately 400 acres of gently rolling terrain.

The remainder of the study area is comprised of sloping hillsides.
A steep slope rises from Resurrection Bay to the bench and a
gentler hillside slopes north from the valley floor to the bench.
The remaining land included in the 1977 annexation is quite
mountainous.

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The surface features of the land are best shown by a topographic
map of the area (Figure V- 1)

The topography of the area influences many of the land development
and planning decisions and limits the options available. The
greatest problem of development presented by topography will
be the steeply sloping hillsides. These lands will not be
available for development and present problems for land trans-
portation access.

GEOLOGY AND SEISMICITY

The general geology of the Seward area is related to two principal
physiographic provinces. The mountain system is composed of
sedimentary marine rocks while the valley system is composed of
sediments related to the glacial, fluvial and marine depositional
history of the valley.

Bedrock,is chiefly two types of moderately metamorphosed rock:
phyllite and graywacke. Phyllite is a low grade metamorphic
rock derived from silty shale. Graywacke refers to a sedimentary
rock consisting of sand sized grains with a fair amount of fine
grains. The bedrock in the area was deposited during the Upper
Cretaceous age (70 to 90 million years.ago).

Glacial deposits are mostly lateral moraines of loose silt,
sand and gravel with minor amounts of clay cobbles and boulders.,
Deposits of stratified glacial sediment occur locally at the
surface. After retreat of glacial ice from Resurrection Bay,
streams began depositing alluvial fans at the mouths of tributary
valleys. The fan at Fourth of July Creek is loosely compacted
deposits of sand and gravel with minor amounts of clay, silt,
cobbles and boulders.

The steep underwater face of the fan at Fourth of July Creek
suffered submarine landsliding during the 1964 earthquake. "By
analogy to the Lowell Creek fan-delta, it may be speculated
that further submarine landsliding offshore from the site could
occur in the event of another large earthquake". 1 Further site
specific geological information is presented in Chapter VII
"Geotechnical Survey and Evaluation".

CLIMATE

Resurrection Bay is a large' deep natural water harbor. The area

1 From Reference 1, Page 44

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FOURTH OF JULY CREEK TOPOGRAPHIC MAP
FIGURE V- I

benefits from the relatively warm Japanese current that generally
warms the Gulf of Alaska area producing a maritime climate for
the Seward area. The climate is typified by cool summers, mild
winters and large amounts of precipitation. A weather station
exists in Seward but no information is available for Fourth of
July Creek. The weather should be very similar. A chart of
Seward temperature and precipitation is presented in Table 1.

.Temperatures for the area are relatively mild with minimal daily
variations. Average temperatures range from 25 degrees F. in
January to a summer average of 56 degrees in July. During July,
daytime highs often reach 67 to 7S degrees F.

Seward has a relatively high average annual precipitation of
66 inches. Most of the precipitation falls as snow; average
annual snowfall at Seward is 80 inches.

Prevailing winds are from the north in winter and from the south
in summer. In spring, morning winds are from the north and
from the south in the afternoon. Fall winds come primarily
from the west or northwest.

Resurrection Bay, and the rivers, valleys and passes at the north
end of the bay comprise a system for which general conditions of
surface wind may be predicated and analyzed. Members of the U.S.
Weather Service in Anchorage, Alaska have both studied and pro-
duced equations, charts, papers, And other aids to determine the
wind velocity both in the passes, and in Resurrection Bay. Wind
in Resurrection Bay has been forecast using these techniques for
several years and experience has proven these forecasts reasonably
correct.

A meteorological data review indicates that the head of Resurrection
Bay around the airport and actual city site is a wind "dead" area
compared to surrounding areas. The "bench" at Fourth of July
Creek appears to be 'ideally situated to receive constant flushing
by winds. The valley has conditions similar to the City of
Seward. A senior meteorologist at the National Weather Service
in Anchorage, Alaska, stated that the flat pr'omontory (bench)
north of Fourth of July Creek would continually be swept clean
by the winter winds and would have the best location for diffusion
by the summer breezes. Summer diffusion would be accomplished
through south wind convection mixing as it progresses inland.
Mixing would continue from the shore to the top of the passes.
The evening breeze would tend to disperse any "plumes" along
the east side of Resurrection Bay. Winter dispersion would be
directly to sea by the prevailing north wind.

TABLE 1

TEMPERATURE AND PRECIPITATION
SEWARD, ALASKA

Mean Total Total
Month Temperature Precipitation Snowfall.
degrees F. inches -I-nc-hes

January 24.7 5.03 17.4
February 27.8 5.22 17.4
March 30.6 3.60 11.4
April 37.9 4.25 7.3
May 44.7 3.39 0.2
June 51.7 2.22 0
July 55.51 3.10 0
August 55.4 5.82 0
September 49.4 9.38 Trace
October 40.4 10.38 1.0
November 31.2 7.26 6.7
December 25.1 6.68 19.1

ANNUAL 39.3 66.33 80.5

Years of Record 44 43-48 47

Source: U.S. Department of Commerce, Climatic Summary of the United States, 1965

MARINE

Resurrection Bay is a finger of the Gulf of Alaska occupying
a deeply eroded glacial valley. The bay is approximately 2-1,
miles wide at Fourth of July Creek with steep mountain fronts
on each side. Steep submarine slopes are present at its margins
and water depths are as great as 600 feet off the site A
shallow tide flat exists at the head of the bay extending south
for 3,000 feet where it meets a steep submarine slope to 300
feet.

The tidal range at Seward is 10.5 feet from mean higher high
water to mean lower low water. Extreme tides recorded are high
of 14.8 and low of -4.2. No data exists on longshore or tidal
current patterns.

Detailed data on bottom sediments are not available but an NOAA
nautical chart shows soft mud about 1-1, miles offshore from the
3ite and "hard" just offshore from the edge of the intertidal
zone. "Tentative interpretation is that the underwater surface
of the alluvial fan-delta is swept clean of clay and silt by
tidal currents and/or density currents, whereas the deep bay
bottom at the foot of the delta is probably covered by soft clay
and silt deposits, or possibly by landslide deposits from the
fan-delta". 2

Minimum water dept hs of 50 feet at mean lower low water occur
within 400 feet of shore. An adequate turning basin for vessels
exists without interfering with vessel routes to the city harbor.
No natural shelter exists at the study site, but a dock system
may be constructed that allows vessels to remain with long axis
parallel to winds and wave action.

WATER

This study assumes adequate water exists in the immediate Fourth
of July Creek area, and this is being confirmed by a USGS study.
Field testing for the USGS study will begin in late summer, 1979.
In the event that extreme quantities of water are required,
.sources at the head of Resurrection Bay may be tapped.

Fourth of July Creek is fed by melt-water from several glaciers
high in the Chugach Mountains. The developable area at the site
is situated so that run-off flows westward through the valley .
where it is available for use. However, withdrawal from the creek

2 From Reference 1, Page 46.

-17-

may be restricted or prevented during certain times of the year
because of salmon egg incubation. Very limited data is avail-
able for discharge volume or water quality. The Alaska Division
of Geological and Geophysical Survey estimated the stream flow
between 30-50 cfs in October, 1976. In October, 1978, a
measurement was taken which showed a flow of 120 cfs at the mouth
of the creek. Considerably less volume would be expected in the
Winter.

No wells ha ve been located at the study site so specific infor-
mation is not available on well production. The water table is
fairly shallow as discussed in Chapter VI "Geotechnical Survey
and Evaluation". By analogy with the Jap Creek fan at Seward and
the Resurrection River alluvial plain, good quantities of ground-
water should be available anywhere in the floodplain.

The factors to be considered in site planning directly related
to water resources are protection of the recharge zone and pro-
tection from contamination. The principal recharge areas are the
alluvial fan of the creek and the mountain fronts. Stripping
vegetation and paving will increase run-off and reduce recharge.
Development must leave sufficient recharge area in its natural
state. It may'be advantageous to locate some material borrow
pits at the head of the valley to further enhance recharge.

FLOODPLAIN INFORMATION

The Fourth of July Creek valley is a natural drainage basin
originating at several glaciers in the Chugach Mountains. The
creek flows west for 4.S miles with a drainage area of approximately
27 square miles. The drainage basin is comprised primarily of
steep mountainous slopes and glaciers.

Fourth of July Creek is glacial fed and has a braided channel.
The floodplain through which the channel migrates is composed
primarily of silt, sand, gravel and boulders. The vegetation
of the basin is represented by heavy timber and brush.

The creek is subject to floods and these occur primarily in the
early spring or late summer and fall. The floods are the result
of several factors, including snow melt and precipitation during
rapid run-off from heavy rains. Because the basin is small the
flood stage can crest and fall within a few hours.

No specific floodplain information is available for Fourth of
July Creek, but the U. S. Army Corps of Engineers has completed
a detailed "Flood Plain Information" study for the area at the
head of Resurrection Bay. Much of this information is useful

-18-

for correlation as the same general conditions occur at Fourth
of July Creek.

Brush and debris accumulation in and along the stream bed
greatly increases the potential for flooding. During floods,
these obstructions impede flood flows creating backwater and
higher flood stages. Any development reducing channel settion
or increasing channel resistance may increase the potential for
flooding.

Due to the area's location at the head of Resurrection Bay, it
is subject to the potential-for *coastal flooding. Coastal
flooding can result from either storm driven waves or tsunamis.

The area is in a zone of relatively high earthquake probability
with resultant tsunamis. Major tsunamis occurred during and
,immediately following the 1964 earthquake. Wave Tun-up at the
Fourth of July Creek alluvial fan varied from 23 feet at the
north end to 18 feet at the south end. The probability of a
tsunami occurring is less than the probability for a once in
500 year flood (2/10 percent probability of occurrence in any
one year). "Coastal storms.are a much more frequent event than
tsunamis and therefore were used as the basis for determining
11 3
the coastal high hazard zone The U.S. Army Corps of
Engineers has not defined the coastal high hazard zone for Fourth
of July Creek. However, the zone must be the 10 to 12 foot
elevation contour the same as Seward proper and the rest of the
area at the head of Resurrection Bay.

WILDLIFE 4

The Fo.urth of July Creek area is 'presently an undeveloped area.
Logging has taken place in the valley and a network of gravel
logging roads havebeen constructed. The area is considered to
be black bear and moose habitat and winter mountain goat range.
The area is not critic'al.habitat, however, and overall impact on
big game habitat would be minor if development occurs.

The site affords no known waterfowl nor sea bird feeding or
nesting habitat. Marine mammals, harbor seals., porpoises and
sea otters, are common in Resurrection,Bay but their use of
near site waters is relatively minor. The general offshore area
affords a major rearing area and milling grounds for salmon and
herring. Resurrection Bay is not an important commercial fishing
ground but is a significant recreational fishery. Dungeness,
F@ 3 From Reference 31, Page 15.
4 Information presented in this section is
derived from a Dept. of Fish & Game "Assessment
of Potential OCS Sites" and discussion with a
Habitat Protection Biologist.
_19-

king and tanner crab and five commercial stocks of shrimp.are
present in the offshore area.

Fourth of July Creek is classified for anadromous fisheries
and is a relatively significant producer in upper Resurrection
Bay. The Alaska Department of Fish and Game has indicated
their concerns that any development at Fourth of July Creek
must not diminish or destroy the spawning capabilities of the
stream itself. The creek must be bridged; culvert crossings
will probably not be permitted. Water appropriation from the
stream will be restricted during the egg incubation fry emergence
period from August to Mid-June.

-20-

CHAPTER VI

LAND OWNERSHIP STATUS

FOURTH OF JULY CREEK

GENERAL

Within the area annexed by.the City of Seward only three parcels
of land have been patented. The remaining acreage has either
been selected by, or selected and tentatively approved for
patenting to the State of Alaska. The three patented parcels
are Lots 1 and 2 of U.S.S. 3294 and U.S.S. 1651. The land not
yet approved for patenting to the State of Alaska consists of
three tracts. These include U.S.S. 4828 (unapproved), U.S.S.
4827, and a 5 acre tract in the South-West corner of Section 8,
T.ISI R.IE, S.M. The remainder of the land involved has been
tentatively approved for patenting to the State.

One active mining claim does exist within the area of concern.
This consists of part of a claim for six lode claims on the south
and north sides of Godwin Glacier.

One timber sale and two tide lands permits are still active within
this area. The timber sale and one tidelands permit are.expected
to be closed,out soon.

One Borough land selection, tentatively approved to the State,
has been approved. This is the portion contained by A.S.L.S.
76-79. Fifty foot wide easements along each side of Section lines
do exist within the annexed land. No platted easements or rights-
of-way exist within this area.

LAND OWNERSHIP & INTERESTS

FigureVI-l is a land status map of the study area. The dis-
cussion that follows references this figure and the legendis
used as an aid in determining land owners and other land
interests. A complete land status map covering a greater area
is included in a pocket at the back of this report. Some land
parcels discussed,will be shown,on the foldout map and not on
Figure VI-1.

-21-

LEGEND

STATE PATENTED LAND

. ...... STATE PATENTED LAND- BOROUGH SELECTED

STATE SELECTED WITH TENTATIVE APPROVAL -

BOROUGH SELECTED

STATE SELECTED WITH TENTATIVE APPROVAL-

........... ...........
BOROUGH SELECTED-CITY OF SEWARD NOMINATED

..................
STATE SELECTION- TENTATIVE APPROVAL PENDING-

BOROUGH SELECTED

STATE SELECTION- TENTATIVE APPROVAL PENDING -

BOROUGH SELECTED-CITY OF SEWARD NOMINATED
..............
TIMBER SALE AREA
PRIVATE LAND

_7t
LOT I
4-
LOT 2

SPECIAL INTREST
'T
LAND

48aB

I ON A.

SPECIAL INTREST
LAND
51DQ

+\+

TI 11

F oq
- UZI

..........

SCALE; I"=2,000'

LAND STATUS MAP
FIGURE VI- I

PRIVATE LANDS

All private land is marked with diagonal broken hatching and
,a number within a triangle. Each parcel is discussed below:

/1\ Description: Lot 1, Sec. 1, T.lS., R.lW., S.M.

Owner: Alaska Barge & Salvage
General Delivery, Seward, Alaska

Patented: 11/2/18 to John Nash under Patent 65210

Platted Easements or Rights-of-Way: Nash Road is platted
with its R.O.W. touching this property for a distance of
approximately 2001 along the N.E. Corner.

501 Wide Easement Along Section Line?: Does not exist,
this property was patented before issuance of the statute
providing section line easements.
A2 Description: NW4, NE4, and Lot 3 of Sec. 1, T.lS., R.lW,
S.M.

Owner: Dorothy Stewart
3415 S. 184th
Seattle, Washington

Patented: 9/29/29 to Peter Anderson under patent
1025482

Platted Easements or Rights-of-Way: Nash Road is platted
a 200' wide R.O.W. part way across this property. This
R.O.W. terminates at a point on the south boundary of this
property where one side of the road R.O.W. is the tidelands/
uplands boundary.

501 Wide Easement Along Section Line?: Does not.exist,
entry was gained prior to issuance of the statute providing
section line easements..

Description: Parcel of land containing less than one acre
at end of platted easement for Nash Road on
southwest side of easement.

@Owner: Nicholas Murawsky
Box 696
Seward, Alaska

Patented: 9/29/29 to Peter Anderson under Patent 1025482

-23-

Platted Easements or Right-of-Ways: Nash Road is platted
along northeast property line

501 Easement Along Section Line?: Not Applicable.

/4\ Description: E-I, ts 4 & 5 of Section 1, T.lS.,
., NW-14, and Lo
all in R.lW., S.M.

Owner: Virginia Darling
Box 157
Seward,, Alaska

Patented: 8/22/1919 to Joseph S. Hofman under Patent
707369.

-Platted Easements or Rights-of-Way: None - See part under
special easements and rights-of-way.

501 Easement Along Section Line?: Does not exist., this
property was patented before issuance of the statue pro-
viding section line easements.

A5 Description: Lot 2 of U.S.S. 3294 (located in Sec. 12,
T.lS., R.lW., S.M.)

Owner: Eugene Hundley
425 145th S.E.
Bellevue., Washington

Paten ted: 7/9/54 to E.W. Hundley under Patent 1145408

Platted Easements or Rig ts-of-Way: None see part under
special easements and rights-of-way.

501 Easement Along Section Lines?: Not Applicable
/6\ Description: U.S.S. 1,651 (located in Sec. 13 of T.lS.,
R.lW... S.M. and Sec. 18 of T.lS., R.IW,
S.M.)

Owner: Dale Lindsey
Box 367
Seward, Alaska

Patented: 12/20/66 by Robert Lynn Swift, Senior under
patent #50-67-0307

-24-

Platted Easements or Rights-of-Way: None

501 Wide Easement Each Si de of Section Line?: The easement
-does exist by statue and could be ascertaiHed through
the Alaska Division of Lands.
A7 Description: The NE4 and the S-I, of the NW4 and the SWk
of Sec. 36 T.1N., R.IW., S.M. as subdivided
into 133 parcels and assorted roads.

Owner(s): Not listed herein

Patented: 11/2/18 to John Nash under Patent 652510

Platted Easements or Rights-of-Way: Nash Road has a
platted width of 1001 (and at some places 2001) across
this property, other inconsequential subdivision roads are
also platted (between 30' and 501 in width).
50' Wide Easement Alon& Section Line?: Does not exist, this
prop.erty.was patented before issuance of the statute pro-
viding section line easements.

STATE PATENTED LANDS

The State.has received patent for some land that this report
covers. Some of the land has been selected by the Kenai
Borough as p@Tt of its allotment. These portions are
marked with'-j','@ The remaining State patented lands have
not been requested by any agency or municipal corporation.
These.are marked with solid cross-hatch lines.

Description: Lot 2 of Section 1 and-Lot 1 of U.S.S. 3294
(in Sec. 12), all in T.lS, R.lW, S.M.

Patented: ll/l/63 to the State of Alaska under Patent
1234116

State Classification: None platted

Other Interests: None

Platted Easements or Rights-of-Way: None

501 Wide Easement Along Section Lines?: Exists along the
north side of Lot 2, Section 1.

-25-

Description: The NW4, NWI-@, the SWI-, and the N1,, of the
SEI-,., and the NE4 of Sec. 36, T2N, R.lW, S.M.

Patented: 8/14/61 to State of Alaska under Patent
122953 (Land Grant for Schools)

State Classification: School use presently being
reclassified.

Other Interests:

a. The Kenai Borough has selected this land as part
of its allotment.

b. A "free-use-permit" for the extraction of gravel
and sand (for $0.25/cu.yd.) from the S.W.-4, SE1,4,
of Sec. 36 was given to the Dept. of Transportation.
There is no term on this permit. The file on this
action is A.D.L., F.U.P. #02425 (marked as Special
Interest FAI on the map).

C. The State has sold the timber on the SWk and the
NI-, of the SE-14, Section 36. The present holder of
this interest is: Delmar Branson
Box 1071
Seward, Alaska

This interest reverts 9/26/79 unless an extension
is granted. The file on this action is A.D.L.
Timber Sale 200742. (Marked as timber sale r-D-\on
the map).

Platted Easements and Rights-of-Way: Nash Road crosses the
NW-14, NW-4 and FF-e corner of the SW1-,, SE-14 of Sec. 36. An
Vinteragency land management transfer" has transferred
control of this R.O.W. from the Division of Lands to the
Department of Transportation.

501 Wide Easement Along Section Lines?: Does exist at all
points where the parcel adjoins "f-hesection line.

SPECIAL EASEMENTS AND RIGHTS-OF-WAY:

a. When the U.S. Government transfers title of land
to another party a patent is issued. When the
patents are issued certain rights are reserved
to the federal government. Sometimes these rights
are reserved for any governmental body.

All patented land in the area of study has the
following reserved rights; 1) all vested and

-26-

accrued water rights and rights to-ditches and
reservoirs used in conjunction with such rights
are reserved to their owners, and 2) a right-of-
way for the construction of ditches and canals
constructed by the authority of the United States
is reserved to the United States.

All pa ented lands studied except privately owned
tract/4\also have a right-of-way for the construc-
tion oTrailroad,.telegraph, and telephone lines
reserved to the United States.
Privately owned tract/5\ has two other rights
reserved in the patent. These are as follows; 1)
a right-of-way is reserved for roads, roadways,
highways, tramways, trails, bridges, and appur-
tenant structures constructed by or under the
authority of the United States or the State of
Alaska, 2) rights to all uranium, thorium, or
other material used to produce fissionable mater
ials along with the right to enter the land,- to
prospect for, mine, and remove the material is
reserved to the United States.

b. An easement for the Nash Road extension across
privately owned tract A4 has been provided to the
owner of Lot 2., U.S.S. 3294 in return for an
annual fee. This easement is tranAferable with-
out consent of the owner of tractL4\
however
the easement can be voided by neglecting payment
of the annual fee or use of the easement.

LANDS TENTATIVELY APPROVED FOR PATENT TO THE STATE OF ALASKA

Those portions of land marked with a light tint have been tentatively.
approved to the State and no further interests have been indicated or
transferred. Those areas marked with solid line hatching (b 'oth
horizontal and vertical) have been tentatively approved to the
State, -and, have been selected by and approved to the Kenai
Borough as a part of their allotment. This portion of land:has
been-surveyed and is recorded as Alaska State Land Survey No.. 76-69.

'A S acre tract within this survey,had been withdrawn for a head-
quarters site at the time the land was tentatively approved to
the State. Thus it was not approved to either the State or the
Borough., This withdrawal has been closed, and the State has
reaffirmed its request for this land.

That portion of land within A.S.L.S. #76-69 and marked with vertical
hatching has also been nominated by the City of Seward as part of
their allotment. This nomination contains approximately 225 acres
in Section 18 and approximately 144 acres in Section.17.
-27-

No patent has been received on any of this land to date.

The State sold the timber on a portion of A.S.L.S. No. 76-69 to
the Kenai Lumber Co., Seward, Alaska. This interest is expected
to be closed out sometime this year. This action is filed under
A.D.L. Timber Sale 64634. Location of the sale is noted on the
map with two groups of trees marked

LAND NOT TENTATIVELY APPROVED TO THE STATE OF ALASKA

There are three tracts of land,the State of Alaska has selected,
within this area of study, which the United States Government has
not tentatively approved for patenting to the State of Alaska.

Two of these tracts are covered by special surveys. These are
U.S.S. 4828 and U.S.S. 4827. They are marked on the status map
with +++. Both tracts have been selected by the Kenai Borough
and nominated by the City of Seward as part of their respective
allotments.

Nikiski Marine Corporation of 111 F Street, Anchorage., Alaska has
filed a lease application with the Alaska Division of Lands for
a portion of U.S.S. 4828.

The third tract is the 5 acre tract within A.S.L.S. No. 76-69 that
was not approved to the State. This tract is still currently under
request by the Borough.

The State of Alaska has not and cannot take any action on these
requests and applications until it receives at least tentative
approval from the federal government on its selections.

The U.S. Bureau of Land Management was (as of 12/5/78) processing
these three tracts of land to provide tentative approval to the
State of Alaska.

TIDELANDS, MINING CLAIMS, ETC.

1) All tidelands within Sections 1,2,3,110 and a portion
of 15P T.lS, R.lW, S.M. have been patented to the
City of Seward under Tidelands Patent #232.

2) A tidelands permit covering construction of a log
ramp.and use of such was given to the Kenai Lumber
of Seward, Alaska. (Marked as tidelands permit
for removal of timber taken from timber sale
64634. The term of this lease (tidelands permit
68326) has expired, but the lease has not been closed
as of this date. Presently it is expected that this
lease will be closed out in conjunction with timber
sale 64634.
.-28-

3) Tidelands Lease 61983 was issued to E. W. Hundley of
10311-2 E. Ist Street, Anchorage, Alaska for a five
year term beginning on 12/16/74. This lease covers.
a portion of tidelands adjoinging U.S.S. 3294, Lot 2.
It is marked as tidelands permit nB . This lease is
presently scheduled to expire on T2/16/79 but may be
extended upon request.

4) Four mining claims were-found in the area of study,
three of which are inactive, and none of which have
been patented.

The-three inactive claims are not shown on the status
map as an inactive, unpatented mine claim does not
segregate the land. The inactive claims are listed
below:

a. Claim #95-168 located in Sections 1S and/or
16 of T.lS, R.lW,, S.M., exact location unknown,
mineral claim for copper, last active date
1908.

b. Claim #9S-311 located in Section 12,, T.lS, R.lW,
S.M. (may be on U.S.S. 3294). One lode claim
for gold, last active date - 1961.

C. Claim #95-455 located along Fourth of July Creek,
approximately 1/4 mile upstream from the stream
mouth and continuing for about 1/2 mile along the
main stream, one placer claim for gold, last
active date 1974.

d. Claim #95-162

The active claim is marked as to approximate
location by special interest shading and letter[-cl.
This claim is located along the "North" and "South"
sides of Godwin Glacier. It is comprised of 6
lode claims for gold and copper laid out in two
sets of 3 claims each. Each claim is 1,500 ft. by
600 ft. The claim is listed as being owned by:

Auther W. Smith

Box 472

Woodstock, Virginia 22664

-29-

ADDENDA TO CHAPTER VI

After this report had been prepared but before it was printed
in its final form, the land status in the Fourth of July Creek
area changed. The three parcels of land which had been selected
by the State of Alaska but had not yet received tentative approval
(T.A.)-for patent to the State, have now been given T.A. A
letter from the Bureau of Land Management to the State of Alaska
giving T.A. is included in the Appendix.

-30-

CHAPTER VII

GEOTECHNICAL SURVEY & EVALUATION

The Fourth of July Creek area which may be suitable for industrial development
consists of two distinct and separable areas. The first is the historical flood
plain of the creek, while the second is a bench to the north of the valley at
about 6001 to 10001 elevation M.S.L. The foundation materials of these two areas
are distinctly different. The creek valley plain, with bedrock between 30 and
100 feet below the surface, presents a foundation material consisting of alluvial
sands and gravels. The "bench" to the north of the valley appears to have only
a thin surficial covering of soil and glacial till, presenting a foundation
material consisting chiefly of sound bedrock.

Valley Foundation Material

The valley alluvium appears to be composed of coarse sands and gravels with some
silt. The material in the head of the valley appears to contain coarser and
somewhat denser materials (including cobbles and boulders) than the beach.

The entire valley floor provides an excellent site for an industrial development.
The density and coarseness of the material in the head of the valley indicates
that shallow spread footings would probably be sufficient for most building or
reservoir construction, and high point load systems such as silos, towers, or
stacks could probably be founded on heavy spread footings or shallow piers. The
appearance of loose to medium sand.near the beach indicates that high point load
systems may need to have the overlying sand densified to prevent excessive
settlement and differential movement of the foundation during seismic tremors.
The shallow water table near the beach indicates that underground construction in
the beach area may encounter some problems with saturated sands, whereas the area
mo.re towards the head of the valley should not have many problems related to high
water table. There is a 2001 to 300' zone of land at the beach line on the creek
delta that should be set aside for non-critical structures and usage due to the
submarine landslide potential in the event of a major earthquake.
Test borings, seismic profiles, and visual observation indicate a lack of permafrost
or subsurface ice inclusions in the main portion of the valley.

Although the conditions encountered in this area appear "good-to-excellent" for
foundation material, good engineering practice dictates that site specific
investigative work should be done prior to the design of any project in this area.

"Bench" Foundation Material

The bedrock in this area is often exposed, and should alway s be considered in close
proximity to the surface. The bedrock consists of interbedded phyllites and
graywackes. The foliation strike is about north-south with a dip of 85 degrees.
These conditions indicate that this area is excellent for high point-load systems,
as the surface velocity (12,000 ft/sec.) indicates good sound bedrock. The
orientation of the bedding and dip indicate ease of construction and probable
stability of cut shelfs or I'stepped" foundations in the bedrock.
-31-

The high velocity associated with this bedrock precludes the use of ripping as a
means of removing material. This indicates a probable high foundation preparation
cost for structures not designed to fit existing contours. This also tends to
indicate a high cost for construction of underground utilities. However, the
elevation of the "bench" and the close proximity of bedrock foundation materials
make this location excellent for chimney stacks, gravity reservoirs, and comunication.
towers, or any other system utilizing an elevation differential.

Geotechnical S

The firm of C.C. Hawley & Associates performed a two-stage survey of the Fourth of
July Creek area. The first stage provided visual and seismic inspection of the
general area. The second provided soils borings to check the seismic probe accuracy
and investigate more fully the soils in the valley flood plain.

SEISMIC & VISUAL SURVEY

Subsurface Studies

Three seismically distinct materials are present under the site. A two to ten
foot thick layer of loosely-compacted alluvium has a seismic velocity of 2,000 ft/
sec. Deeper alluvium is water saturated and has a velocity of 4,000-5,000 ft/sec.
Bedrock has a velocity of 10,000 to 12,000 ft/sec. Refraction profiles were run
at four sites using a signal enhancement, hammer seismograph. Line A indicated a
depth to bedrock of 60 feet. The depth to bedrock under line B was 50 feet. Line C
is underlain by more than 100 feet of water saturated alluvium. The alluvium
thickens from 30@feet near the valley sides to more that 100 feet near the shoreline
in the center of the valley. There was no indication of frozen soil under any of
the seismic profiles.

Bedrock

The bedrock near Fourth of July Creek is an imbedded series of phyllites and
graywackes. The foliation strikes roughly north-south, with a near vertical dip.
This orientation eliminates the possibility of large scale slab-type rockslides on
either the north or south sides of the valley. A short refraction profile was run
across the top of the bench, north of Fourth of July Creek. A surface velocity
of 12,000 ft/sec. was confirmed by pulling away moss to expose bedrock. Outcrops
of interbedded phyllites and graywackes across the top and sides of the bench con-
firm that it is indeed bedrock, and not a glacial moraine. A small hill of meta-
sandstone protrudes.through the alluvium near the junction of the two mainstream
channels about 1 mi 1 e up the valley.

Characteristics Of The Valley Fill

The Fourth of July Creek alluvium is a coarse gravel with sand and silt. The
gravels contain a significant number of cobbles 411 to 8" across and numerous
boulders greater that 10". The gravels are composed of the phyllites, metasand-
stones, and graywackes of the area. They exhibit the parting characteristic of
bedrock by being flattened in one dimension. The valley fill tends to fine
toward the beach and the beach itself is quite sandy.

-32

Permafrost And/Or Residual Glacier Ice

The possibility of the occurrence of permafrost and/or residual bodies of
glacier ice in the Fourth of July Creek basin was considered. The relatively
warm marine climate of Resurrection Bay area, the good southwesterly exposure
of the basin and the coarse free-draining material of the floodplain all
indicate that permafrost is highly unlikely. Furthermore, surficial evidence
of permafrost.or massive ice such as patterned ground, sand boils, kettling, or
standing water tableswas not in evidence. Finally, the preliminary subsurface
seismic profiles showed no velocities typical of ice or ice-rich sdils. We
conclude that the Fourth of July basin is essentially ice-free.

Avalanches and Rockslide Danger

The southern margin of the Fourth of July Creek valley plain is bounded by a
very precipitous ridge which rises nearly 3,000 feet in about a half mile. The
ridge crest is shaped by three distinct cirques which are the source of several
stream channels which drop into the valley below.

Old avalanche.scars can be seen in and adjacent to the larger channels that are
the primary feeders from the cirques above.- A recent avalanche (primarily snow in
this case) probably occurred in the late spring of 1978. Although the snow had
melted back considerably, it appeared that the slide probably ran out about 200
feet from the valley wall. An accompanying blast of wind blew down a grove of
spruce trees (some with butts up to 18") about 400 feet from the valley wall.

Snowslides or avalanches can be expected to continue along the valley wallin the
future. Rockslides are also possible but less likely as the strike of the rock
units in the area and the general competency of rocks precludes slabbing and mass
wasting. We recommend that a 500'foot safety zone be established along the base
of the southern valley wall to restrict the building of.permanent structures.

Groundwater

The*valley fill, being coarse with few fines should be especially permeable, and
fresh goundwater should be obtained in good quantity almost anywhere on the valley
plain. Bearing this out, fresh water springs were noted at several points within
300 feet of the beach.

SOILS BORINGS

A Nodwell-mounted CME 55 drill rig was used to drill five holes from 30 to 50 feet
in depth. The hole locations were selected to provide an overall-view of the type
and thickness of the alluvial deposits. Both drive and grab samples were taken.
Drive samples were obtained using a 140# hammer and a 1.4 inch split spoon sampler.
The test hole logs are included in the Appendix. Figure VII-1 shows where the
holes were located.

Description of Soils

In general, the bore holes indicate that the valley fill is composed of coarse
sands and gravels, with num.erous'cobbles. Field logs are attached. Holes No.
1 and 2 were located'toward the head of the valley. The soils in No. 1 consisted
-33-

of sand with some gravel overlying alternating units of sandy gravel with a trace
of silt, and sand with a trace of silt and gravel. Hole No. 2 encountered silty
gravel with some sand which overlaid gravel with some sand and silt.

Hole No. 5 was located in the northcentral portion of the valley fill. The hole
was placed on a recently abandoned stream channel. The soil consisted of sandy
gravel with some silt.

Hole No. 3 was located at high tide line and encountered finer soils primarily
consisting of sand with some gravels. This material has probably been reworked
by longshore currents. Hole No. 4, 200 feet behind the high tide line, encountered
much coarser material in the form of numerous cobbles and gravel. These coarse
materials were most likely deposited in a main channel of the now abandoned
stream bed.

Bedrock was not encountered in any of the test holes. Neither ice nor permafrost
was present in any of the holes.

Water Table

Water tables ranged from 9 feet in depth near the beach to 31 feet in depth in the
upper portion of the valley. Because of the uniformly coarse and permeable nature
of the gravels in the valley, the water table is probably a continuously sloping
planar feature that rises away from sea level at a slightly lesser gradient than
the valley fill itself. Several fresh water springs in the back beach area indicate
that the water table intersects the surface here.

Conclusions

The results of this drilling program indicate that the valley fill of Fourth of
July Creek near Seward has uniformly favorable characteristics for the placement
of stable foundations. Further site specific work will be necessary before actual
construction takes place.

-34-

KNOB PROFILE
IQ-LAKE
(FREQUENT OUTCROPS' OF BEDROCK
PHYLLITE WITH CONSISTANT ORIENTATION)

PHYLLITE

BEDROCK
tLINE A
x
THI

META-
"SANDSTONE I
X.
TH4 TH 5 TH2
x X\-LINE 8
4th OF GREEK
I RECENT
LINE C AVALANCHE
AREA

TH 3
x

RESURRECTION
BAY

SEISMIC SURVEY AND
TEST HOLE LOCATIONS

PROJECT NO. 4th of JULY CREEK
DRAWN:
CHECKED: SEWARDI, ALASKA
DATE:
BY
REVISION DATE @ SCALE: FIGURE VII-I FSHEET

CHAPTER VIII

TRANSPORTATION

The Fourth of July Creek area can potentially be served by each basic form of
transportation: land, water and air. This chapter will discuss each means of
transportation as it relates to the site.

LAND TRANSPORTATION

Seward is presently connected by land to the rest of Alaska by the Seward Highway
and the Alaska Railroad. Presently usable land access is unavailable to the
Fourth of July Creek valley. There are several options available for providing
land vehicle access. Two potential access road alignments have been developed
and will be discussed. One generally follows the shoreline of Resurrection Bay
while.the other route climbs the mountain slope to provide access to the "bench"
as well as the valley. Seward is served by the railroad and this could be
extended to Fourth of July Creek.

Ferry service from Seward is another possible means of access and this too will
be evaluated.

Road - Lower Route

The lower road access route leaves the platted roadway (Nash Road) approximately
150 feet from the shore of Resurrection Bay. It crosses 600 feet of private
property where no easement or R.O.W. now exists. The route then generally
follows the shoreline for 3000 feet across another tract of private land. The
roadway here lies in a private easement granted by a court judgement in 1967.
The easement is still valid and is 50 feet wide. Provisions of the judgement
allow the easement to be transferred without consent of the grantor.

From there, the route crosses state selected (and tentatively approved) and
State patented lands before crossing another parcel of private land (U.S.S. 3294,
Lot 2). This parcel has reserved as part of its patent the right-of-way for
roads, roadways, highways, etc. It is on this parcel that the old.road ends
at a dock.

From the southern boundary of the last private parcel, the route follows the
shoreline of Resurrection Bay along USS4828 which has been selected by the
State but has not yet been tentatively approved. Near the southern boundary
of USS4828 the route gains access to Fourth of July Creek.Valley and.would
connect to local roads. See Figure VIII-1 for the road alignment. Final
alignment would be decided by field investigation and economics.

Where the route lies on State patented and State selected land with tentative
approval, the Alaska Division of Lands can issue a R.O.W. for a roadway. The Kenai
Penninsula Borough must write a letter of non-objection for the portion of Borough
selected land. The B.L.M. must issue the R.O.W. for State selected land without

-36-

)MVI) YM

.... ......
...........

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00
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................... ......
..............................
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00
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connects to ocal service
roads on benc

U ER R U

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LOWER ROUTE

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SCALE- I"=2,000'

ACCESS ROAD ALIGNMENTS
FIGURE VIII-I

tenative approval, but letters of non-objection would be
required from the State, the Kenai Peninsula Borough, and the
City of Seward.

The route extends approximately 2 miles beyond the end of the
platted Nash Road before gaining access to Fourth.of July
Creek valley. Approximately half this distance is beyond the
end of the old road to thedock. The entire route would require
a large amount of blasting and fill to create a 40 foot roadway.

Recent work by the Corps of Engineers lists a "Coastal High Hazard
Zone" as land below the 10 to 12 foot elevation contour in a
nearby area. This zone is subject to wind driven wave action.
Final alignment should place the roadbed above this level..

This access route has the disadvantage of crossing several
tracts of private land. The existing easement across.one private
parcel can be transferred and Lot 2 of USS 3294 has a reserved
R.O.W. that can be exercised. The right-of-way across the first
private parcel, however, must either be negotiated or obtained
by the City of Seward through exercise of its right of eminent
domain.

Road - Upper Route

The alternate access route leaves Nash Road about 1500 feet before
its end and crosses state patented land while climbing to about
350 foot elevation. At this point theroute crosses into Forest
'Service land. The route "side-hills" up the west slope of the
mountain for a mile and a half where access to the "bench" is
achieved. At this point the route is on state selected land
which has received tentative approval. From here the route begins
to descend and enters USS 4828 which has been selected by the
state but has not yetreceived tentative approval. The route
reaches the valley floor about i 1/2 miles inland from the shore
of Resurrection Bay on state selected-and tentatively approved
land. See Figure VIII-I for the approximate alignment of this
route.

The alignment of this route can be varied to change the access
to the "bench" and to alter the grade. An alignment with nothing
steeper than a 6% grade is possible, but other alignments with
grades to 8% provide better access to the bench. The final
alignment, even if the route at 6% grade is chosen,. would probably

-38-

require at least some sections of road with 8% grades. The State
Highway Department uses 10% as maximum grade. The Seward Highway
uses 8% grades in the climb to Turnagain Pass, thus indicating
that 6 to 8% grades are still usable by commercial freight'traffic,
although not ideal.

This route requires approximately 4 miles of.new road construction.
The first mile is on fa'irly low,,level ground, but the 'remainder
of the road is climbing at near maximum grades along the side
of fairly steep slopes. The construction will be quite costly
with large amounts of blasting and fill required. At least one
and possibly more bridges will be required at deep gulches that
must be crossed.

The first section of road crosses state patented, borough selected
land,owith a free use permit for gravel extraction granted to the
State Highway Department and with an active timber sale. The
Alaska Division of Lands can issue a R.O.W. for a road across this
land but will need letters of non-objection from the Kenai
Peninsula Borough (because of their selection), Alaska Department
of Transportation and Public Facilities (who hold the free use
permit) and the individual who holds the timber interest.

Where the route is located on National Forest land a special use
permit from the Forest Service will be required. Application for
the permit must be made to the U. S. Forest Service who will look
at the site and write a report before making a recommendation.

Alaska Division of Lands can issue a R.O.W. for those portions
of the route that lie in State selected land that has received
tentative approval. Since these lands are also borough selected,
a.letter of non-objection will be required from the Kenai
Peninsula Borough.

.The Alaska Division of Lands cannot issue a right-of-way where the
route lies in USS 4828 even though this land is State selected
because it has not yet received tentative approval. Application
will have to be made to BLM and letters,of non-objection will
be required from the State Division of Lands,.Kenai Peninsula
Borough and City of Seward.

Road - Ferry System

This system includes a pair of loading ramps, one at the site,
and one with access to the existing road system, probably at
Seward. The ferry vehicle could be a motor barge or a surface,
effect craft..

_39-

A 1,000 hp. water propelled hover craft with a clear loading
deck of 1201 x 4S1 and a 90 ton payload could operate at speeds
from 5 to 7 knots. The initial cost of a system like this is
about $2.0 million. For operation costs, including all labor,
capital ammortization, materials, Iinsurance, etc., a 15-year
life cost of more than $18 million is realistic. Cost figures
are presented on page 41 To increase the payload, or speed
would require more power, and increase both the initial and the
operating cost. This system could,operate off of an unimproved
beach.

Local Raods

Road requirements in the actual site will be dependent,upon the
industry developed. In general the,soils are satisfactory for
building high-use, heavy-duty roads in most areas except close
to the,beach. That strip of land adjacent to the beach may
rIequire some special construction techniques to offset the looser
soils and close proximity of groundwater (springs next to beach)
in this area, and still produce a heavy-duty type roadway. Such
techniques are underdrains,.filter fabric, subgrade removal and
replacement, etc. can be used to provide a satisfactory road in
these conditions.

Although it is difficult to attain the.upper "bench" witha
roadway ideal for continuous travel, especially with vehicles
loaded,and transporting products between the Fourth of July
Creek Valley and the Alaska Highway System, an access road,
designed and built separate from the main,road.to the valley with
a steeper slope than that acceptable.for normal roadways could
be constructed to provide construction 'and maintenance access to
the "bench". An accessway initiating near the beach and climbing
.towards the northeast can attain the bench in about 7000 feet of
travel. This provides an a 'ccessway with a slope of 10% - 12%
with only one major turn, and that at the top of the slope. The
"bench" access road is,shown in Figure VIII-1.

This accessway could be put in with a 24 ft. total width for
$600,000 to $650,000 dollars. It may be possible to reduce this
figure somewhat by picking an alignment that will reduce ' this
total amount of rock blasting required to provide a roadway@

-40-

Cost Estimates

Cost estimates are based on access roads being constructed as
shown in the road sections on. Figure VIII-2.

Road-Lower Route Road-Upper Route

Excavation $10600,000 Excavation $2,600,000

Fillp Etc. S40,000 Fill, Etc. 360,000

Guardrail, Culver ts,' Etc. 180,000 Bridges 720,000

Mob, Room & Board, Profit 600,000 Guardrail,
Culverts., Etc. 300P000

Total $2,920,000 Total $4,580,000

Add for Paving 4500000 Add for Paving 700,000

Ferry Road System

Initi al Cost* $1.6-$2.0 Million

Operation & Amortization Cost" $5SOOyDay

Present Worth, 15 Yr. Life, 7% Int. $18.4 Million

*Estimate by Tiger Equipment Co., Chicago, Illinois.

"Based on updated costs of previous Alaska based
operations per telephone conversation 3/2/79 with
Tiger Equipment Co., Chicago, Illinois.

-41-

E'AISTING PROFILE (3:1 -TO-R.-I SLOPE

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RAILWAYS
Seward's position as the southern terminus of the Alaska Railroad
can be a distinct advantage to any development in the Fourth of
July Creek area. "The existing railroad is in excellent condition
for traffic anticipated and no major investment or upgrading would
be required for increased usage."I The mainline tract is laid
with 115# rail and the roadbed is capable of increased tonnage.
Increasing usage will require additional maintenance but this
should be*possible without any service interruption.

Rail service to the Fourth of July Creek area can be connected to
the existing facilities by providing mainline track into the site
or by constructing a rail-barge facility. A rail-barge facility
at the site would connect the area with facilities along the west
coast and also with the railhead at Seward if a companion facility
was constructed there. This could serve as an alternate to a main-
.line tract extension.

Rail-barge facilities can be as complex as the 8 track, ramped
facility in Whittier or as simple as a grid on which the barge sits
at low tide such as the facility at Valdez. Anticipated freight
volumes and direction of movement would dictate the choice between
a spur connection to the main line or a rail-barge facility as well
as the complexity of any potential dock facility.

Mainline Connection

Overland rail access to the Fourth of July Creek area is possible
with an alignment either along the existing Nash Road and continuing
along the shoreline of Resurrection Bay or by departing the main-
line approximately seven miles north of Seward and generally following
the Seward Meridian to the Bay and continuing along the shoreline to the
site. Maximum grades can be kept below 2% in either alignment.
Access to the upper bench is not possible using standard rail systems.
Figure VIII-3 shows the two possible alignments.

The route following Nash Road will require the purchase of a large
amount of residentially developed private land for right-of-way but
is approximately 2.5 miles shorter than'the alternate route. The
Seward Meridian alignment crosses less private land through which
rights-of-way must be obtained. This route, however, is located in
the Chugach National Forest and some of the lands it crosses are
State selected and/or selected by Native groups under the Alaska
Native Claims Settlement Act.

The spur from the mainline must be constructed to Alaska Railroad
standards and would have the same capacity as the mainline track.
Alignment of the spur is not as critical as the economics. Both
alignments present similar difficulties and either route will cost
between $7.and $12 million.

Condition of railroad as indicated by the Assistant to the
General Manager of the Alaska Railroad.

-43-

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POSSIBLE RAILROAD ACCESS ALIGNMENTS FIGURE

Rail-Barge Facility

The existing rail-barge facility at Whittier-has two slips and
ramps and can handle up to four hydro-train barges per day with
about 55 cars (at 80 tons each) per barge. A facility of this
type will cost between $6 to $7 million to construct and will
allow interchange of rail cars between the site and the remainder
of the West Coast. This type of facility is shown in Figure VIII-4.

A rail-barge facility such as the one in Valdez can unload only
at low tide with the barge resting on a grid to ali n its rails with
the dock. Approximately 12 to 14 cars can be unloAed during a
low tide at a facility like this. A simple rail-barge facility
of this type can be constructed for about $2 million.

A rail-barge facility at the site could be used in a number of
ways. Simple facilities could be constructed at Seward and at
Fourth of July Creek to provide.a quick, relatively inexpensive
connection to the existing rail system. A more complex facility
would connect Fourth of July Creek to the mainline through Whittier
and also to rail-barge facilities all along the west coast.
Either type of rail-barge facility would supplement a mainline
conInection if both were constructed.

Local Trackage

A spur from the mainline or a rail-barge facility could provide
rail access to Fourth of July Creek, but additional trackage.at
the site will be necessary. The additional trackage could take
the form of a network of rails connecting several sidings at,
different industries, or it could be a single rail yard.

The Alaska Railroad requires certain minimum conditions be met
for any local trackage they will be using. To have the capability
of handling any type of freight movement,, the ARR suggests using
.90# rail. Soils in general are very good and very little subgrade
will probably be required above the mouth of Fourth of July Creek.
Near the beach, however, unconsolidated sand and fresh water
springs exist. A two or three foot subgrade will probably be
required there.

Depending on the local trackage complexity, costs can.be anywhere
from $0.8 to $3.2 million.

Discussion

The utilization of rail transport for industrial development and
operation is very advantageous for equipment transport and bulk
@freight movement. Large pieces of equipment and machinery does not
usually have to be stripped for shipment as it does with road trans-
port. For bulk freight movement there are three distinct advantages
to rail transport: 1) The economy of unit train movements; 2)
Capacity for large volume transport; and 3) Capability for connection
with the rest of the U.S. through a rail barge facility. Rail trans-
port provides multiple commodity use as opposed to pipelines or

-45-

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Pr similar bulk transport methods. Transport by rail reduces
highway loads and thus reduces highway maintenance and possibly
allows lower construction costs for the highway access road.

Rail transport also has several disadvantages that must be con-
sidered. The existing rail corridor has limited access within the
State as present. Freight deliveries by rail produce surges that
must be handled as compared to a steady flow that would be delivered
from a pipeline. Rail@oad accesses will cost more than highway
access and rail transport is less flexible than trucking. Additionally,
rail transport cannot serve, the upper bench area.

Railroad access could be built by the Federal Government and would
require a congressional appropri.ation. To receive a congressional
appropriation, the proposed rail facility must show the ability
to.produce sufficient rail revenue to repay the investment within
a reasonable period. Private industry could also finance the rail
facilities. This could be done either by private construction or
by the Alaska Railroad with private financing. The capital invest-
ment arrangements can be flexible to allow for maximum incentives.

Cost Estimates

Mainline Connection

From Bear Lake
7 Mi @ $1.7 Million/Mi $12,000,000

Along Nash Road
4.5 Mi @ $1.7 Million/Mi $ 73,500,000

Rail Barge Facility
Complex "Whittier" type facility $ 6)500,000
Lump Sum

Simple "Valdez" type facility
Lump Sum 2.$SO031000

Local Trackage

Single Rail Yard
Lump Sum 750,000

Rail Network $ 1,700,000
Two Rail Yards $ 1,S001@000

$ 3,200@000

WATER TRANSPORTATION

Prior to the 1964 earthquake.Seward was the main seaport servicing
most of central Alaska. Since.then other communities have built
sea-port facilities, and many of Seward's facilities were not re'built

-47-

after being destroyed by the earthquake. Today, Seward acts as
a port mainly for cargo consisting of uncontainerized equipment
being consigned to the Alaska Railroad, fishing boats off loading
catch and taking on supplies at "Seward Fisheries", and the Alaska
Marine Highway System's ferry "Tustemena".

Water transportation at Fourth of July Creek can take numerous
forms. Materials can either be shipped into or out of the site
and the vessels being used could be freighters, tankers, barges,
ore carriers or various other craft, Some materials could be
loaded across the existing dock facilities at Seward or port facili-
ties could be constructed at the Fourth of July site. If the
existing Seward facilities are used, the materials must be moved
between Seward and the site using other transportation means. This
section of the report considers only port facilities at Fourth of
July Creek.

Port facilities-can be broken down into type of industry being
served or type of material being handled. To remain as flexible as
possible, this report considers four types of cargo, one of which
nearly any material could be fit into. The four categories that will
be discussed are: bulk material, general cargo, containerized cargo,
and fishing vessels.

Bulk Material Movements

There are two methods that bulk materials may be economically
transported by sea to or from the Fourth of July Creek area. The
first involves the railroad and the other is a bulk freighter or
tanker dock.

Bulk solids or liquids can be economically moved by sea via rail-
barge. This can be accomplished by interfacing the industry site with
the rail-head in Seward or by constructing a rail barge facility at
Fourth of July Creek, with a local rail yard servicing the industry.
Rail-barge facilities were discussed previously in the Land.Trans-
portation sub-chapter.

The other method involves construction of a marine terminal con-
sisting of an accessway, a loading platform, two bresting dolphins
and four mooring dolphins. The facility could be similar to the
Cherry Point,*Washington Terminal but with a shorter access run. A
method of material transport between the sea vessel and the industrial
stockpile would also be required. This could be a pipeline or
.conveyor as discussed in the miscellaneous land transportation
systems. The physical location of the Fourth of July Creek area
makes it possible for a terminal to have a berth parallel to the
shore thus allowing the vessel to position with its bow or stern
into the wind and prevailing seas. Figure VIII-5 shows a possible
plan and construction details of such a terminal.

-48-

General Cargo Movements

Presently almost all cargo movement through Seward is handled by
the A.R.R. dock at the head of Resurrection Bay. Due to the
existance of docks in Anchorage and Whittier that are designed
for containerized cargo, and the closer proximity of these ports
to the majority of the users. The Alaska Railroad dock in Seward
is seldom used for containerized cargo. The majority of cargo
crossing this dock is equipment, palletized materials, and materials
such as steel shapes, plates, pipe,- etc.

General cargo movement in and out of the Fourth of July area could
use the existing facilities at Seward, a rail-barge facility as
previously discussed or a general cargo dock could be constructed
at the site. A general cargo dock would need to be able to handle
the berthing forces of large-medium size freighters, heavy wheel
or train loads, and a superimposed load of at least 300-400 PSF.
A possible dock plan is shown in Figure VIII-6.

Containerized Cargo

Because specialized facilities for containerized cargo exist in
'Anchorage -(truck based) and Whittier (rail car), movement of con-
tainerized cargo could be railed to and from Whittier or could be
trucked to and from Anchorage. A more reasonable method for moving
large amounts of containerized freight related to an industry at
Fourth of July Creek would be to provide a dock capable of handling
and interfacing between the industry and the vessel with yard type
truck or rail movement. A containerized dock is shown in Figure
VIII-7.

F ishing Vessel and Small Craft Movements

Fishing vessels generally transport their catch from the fishing
grounds to the nearest or highest paying processor or buyer. To
handle this movement, a processing plant located in the Fourth of
July Creek area would need a direct interface between the vessels
and the processing plant. Fishing vessels also require an inter-
face between the vessel and supply services to re-supply for each
fishing trip. Small craft generally used for commercial fishing
or recreation often require some sort of weather protection for
"home berthing" and supply.

The fishing vessel-procossing plant interface is best handled
by a wharf inside a protected harbor with the fish processing
plant located on the wharf or adjacent to it. Fishing vessels
@50 to 150 ft. long can use a wharf without protection if it
provides for north-south orientation of the long axis of the
vessel. Smaller vessels require a protected harbor for off-
loading and refitting.

-49-

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A processing plant that served only larger vessels could supply adequate protection
by constructing a rubble-mound breakwater adjacent to a marginal wharf. This would
be the minimum development required for the fish processing industry. To serve all
types of vessels that could be employed in the bottom fish industry a small boat
harbor would be required.

..A small boat harbor could be constructed either by dredging and constructing
rubble-mound breakwaters off the Fourth of July Creek fan, in conjunction with
the fisheries wharf, or by dredging the beach area and constructing a breakwater
at the present shoreline. The two possibilities are shown in Figure VIII-8.

Cost'Estimates

The following estimates are for actual construction only. They do not include
design, surveying, ancillary equipment or structures, or cost of obtaining Corps
of Engineers and similar permits.

Bulk Material Terminal
Mooring Dolphins @ $170,000/ea. $680,000

BerthingDolphins @ $280,000/ea. $560,000

Fender System @ $900/ft. $135,000

Dock & Approach Area @ $90/ sq. ft. $1,800,000

Walkways $115/ft. 80,000
Structural 3 600,000

Electri cal 300,000

Mechanical* l.S-3 Million

Total $5.06 - 6.56 Million

*Depending on Systems required.

Rail-Barge Facility
Piet (1501 x 200') @ $110/sq. ft. $3,300,000

RAW (150' x 100') @ $70/sq. ft. $1,050,000

Berthing Dolphins 2 ea @ $280,000 $ 560,000

Mooring Dolphins 2 ea. @ $170,000 $ 340,000

Guide Dolphins 2 ea @ $90,000 $ 180,000
-53-

,,SMALL 130AT EVANHINCY @AU Lill ES

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VIZEMED C.HANNr,%L

.............

19 1111111iffrTyrrr
I willp will jill'I'llf -.575MALL BOAT BSILTHINCr FACILITIES

.0RE.DGEU CONSTRUCTION HARBOR.

PMECT 140. FISHERIES WHARF
DUWth WRW AND
CHECKED: FKV DPW SMALL BOAT HARBOP,
DATE: -3/ -71
REV010M DATE BY SCALE: MOM- F I Gr U R F--=- 8 FSH-EET

Electrical 300,000

Mechanical 400,000

Trackage @ 25,000/switch = $300/ft. 700,000

Total $6.3 Million

Container System Dock

Dock & Access Way, 48,000/sq.ft. @ $160/sq ft - $5,280,000

Fender Systems, 600 ft. @ $900/ft. - $ 540,000

Electrical 600,000

Mechanical 600,000

"Portainer" Container Crane 1,500,000

Total $8.52 Million

Standard Cargo Dock

Dock, 40,000 sq. ft. @ $8S/sq. ft. $3,400,000

Fender System, 400 ft. @ $900/ft. 360,000

Steel sheet piling, 650 ft. @ $1,200/lin.ft. 780,000

Fill, 35,000 yd. @ $2.SO/yd. 87,500

Rip-rap, 2,000 Ton @ $12/Ton 24,000

Electrical 200,000

Mechanical 400,000

Total $5.25 Million

-55-

Fishery_Wharf (Breakwater Construction)

Breakwater 13001 @ $5000/ft. $6,500,000

Wharf 3001 x 2001 @ $20/sq. ft.

Walkway SOO' @ $150/ft. 75,000

Pile Bents 30 @ $2000 ea. 60 P 0010

Dredging 45,000 w/yard. @ $1.50 67,500

Mechanical & Electrical 400000
Subtotal (Fishery Wharf Only) $89302,500

,Add for small boat harbor:

Breakwater 23001 @ $'5,000/ft. 11,500,000

Dredging 270,000 w/yd. @ $1.50 40S,000
Total (Fisher5 Wharf & Small Boat $ 2 0 @ 207,500
Harbor
Small Boat Harbor with Fishery (Dredged Construction)

Dredging 2,750,000 w/yd. @ $1.50 4,125,000

Jetty 1000 ft. @ $2000/ft. 21000.9000

Wharf 2000' x 8001 @ $20/sq. ft. 3,2002000

Walkway 5,000 ft. @ $150/ft. 750.9000

Pile Bents 250 @ $2000 ea. 500,000

Mechanical & Electrical 400,000

Total 10,975,000

AIR TRANSPORTATION

Perishable and other materials requiring fast transport must use air
transport from Seward to anywhere beyond the Kenai Penninsula. Air
transport can utilize the Anchorage or Kenai airports with truck con-
nection from Seward,, or the existing airport at Seward can be utilized.
Use of the Seward airport does have some limitations due.to runway
length and airport facilities. An air connection directly to the
Fourth of July Creek industrial site is not feasible due to the topo-
graphy of the area.

-56-

Large cargo craft such as the Hercules L-100 can operate off the
Seward airport with load restrictions. To obtain full cargo load
service the main landing strip would need to be extended to at least
5,000 feet. Smaller cargo craft such as the SHORTS or the Caribou
are capable of using the existing primary strip when fully loaded.
These aircraft are suited for short-haul flights to Anchorage. Air-
craft that can operate with long range capacity and sufficient cargo
capacity require a runway length of S,SOO to 6,000 feet. To extend
the exist-ing runway to this length would be expensive because of the
large amount of tideland that must be filled.

.Presently the approach to the Seward airport is limited by Visual
Flight Rules (V.F.R.) operation. Adding navigation aids to provide
an instrument approach directly to the airport would be of little
aid since the minimum decision attitude would be between 4,000 and
5,000 feet. Present facilities allow an instrument approach to the
Kenai airport with an additional 40 miles of V.F.R. flying to reach
Seward. A navigation aid could be placed near the mouth of Resurrection
Bay to allow an area approach with a probable minimum attitude of
2PODO feet. The remaining 20 mile flight into Seward would be a V.F.R.
approach. Federal Aid programs are available for such navigational
aids, but indications are that Seward does not warrant such a system.

-57-

CHAPTER IX

UTILITIES

ELECTRICITY

Electric power for an industrial park at Fourth of July Creek
can be obtained from existing substation facilities or by
installing on-site power generation facilities.

The City of Seward obtains the majority of its power from Chugach,
Electric Association. The City is presently operating near the
capacity of the system, however, improvements scheduled for con-
struction during the Fall of 1979 will provide additional capacity.
The improved system will be able to handle some load from an
industrial development at Fourth of July Creek. A maximum
allowable load of 1500 KVA should be assumed until further improve-
ments are made. Additional improvements could increase the capacity
to approximately 5000 KVA, depending on community growth and
other industrial demands.

Electric power from the existing substations can be transmitted
to Fourth of July Creek in two ways. A 12.5 KV distribution line
could be installed from the new substation to the valley or a 69
KV transmission line with a new 69/12.5 KV substation at the site
could be installed. Additional diesel power generation could be
provided for emergency back up power.

Power requirements could be met at the site by installing an
on-site diesel generation plant. With the exception of power
intensive industry, a 2500 KW plant would meet the requirements
of a small industrial park while a 5000 KW plant would provide
emergency back-up as well as handle a larger development or
industrial growth.

Large power consumers requiring SOOO KW or greater could be
served by on-site power generation utilizing heat recovery to
maximize fuel utilization at reasonable power costs. The City
of Seward and large power consumers could share investment and
operating costs in a cogeneration arran gement to fully utilize
electric power and heat recovery.

Costs

12.5 KV Distribution Line $200Y000
69 KV Transmission Line $400@000
2500 KW On-Site Generation $1P000,000
SOOO KW On-Site Generation $211000$000

_58-

COMMUNICATIONS

Seward is connected to the rest of Alaska and the world by
telephone/telex connections through the RCA Alascom long
distance.network of hard-wire, microwave and sattelite systems.
Local service and connection to the RCA long distance network
.is provided by the General Telephone Company of Alaska. The
General Telephone Company has 26 outgoing and 1S incoming long
distance trunk connections to the RCA network. RCA can supply
"dedicated-lines" to users in the Seward area for telex,
telegraph, or other systems requiring such service. RCA can
only supply these services at the RCA terminal in Seward.
Connection from the user to the RCA terminal is obtained by
purchasing a connecting "pair" from the General Telephone Company.

To obtain service at Fourth of July Creek (local, long distance,
or "dedicated line") one of three types of connection to the
existing General Telephone Company system must be constructed.
The first type would consist of a cable connecting the existing
exchange with Fourth of July Creek. The cable would be comprised
of I'pair" sets: one "pair" for each subscription, user, or
"dedicated line". This type of connection would be acceptable
for a small to moderate number of users. The second type of
connection would consist of a microwave station at the exchange,
and a mating microwave station at Fourth of July Creek. This
could provide the equivalent of a "pair" for each user, but would
probably cost more than a cable connection unless an extremely
large amount of "pairs." between Fourth of July Creek and Seward
were required. The third type of connection would consist of a
small switching system at Fourth of July Creek to which all users
(except "dedicated line") would be connected. The switching system
would have a moderate amount of connections to the Seward exchanges.
This type of system could handle more users in the Fourth of
July Creek area at a more economical rate.

The General Telephone Company is not willing to put in any type
of connection unless it can be shown that the user charges can
produce an acceptable rate-of-return on the capital investment.
If the return-rate on the capital is insufficient, the user(s)
in the Fourth of July Creek Area would be required to fund the
connection link. Any connection funded by the General Telephone
Company would be determined (as to type) by the requirements of
the users and the most economical method of meeting these
requirements.

No telegram services exist in Seward, however, there are existing
telegraph and telex users.

-59-

FUEL

Two bulk fuel plants are located in Seward: Chevron and Texaco.
Each handles gasoline, diesel, propane and related products.
Natural gas is not available in the area.

A 22,000 gallon per hour pipeline is available for fueling
large vessels at the end of the Alaska Railroad dock. The
fishing fleet is supplied by tank trucks at the small boat
harbor.

The Chevron distributor receives his fuel by tanker from Valdez
and Nikiski (Kenai) while Texaco is supplied from Anchorage
via rail car.

Development at Fourth of July Creek could rely on the existing
suppliers if the fuel usage of the industry was within the
capacity of these suppliers. Alternately, a bulk fuel plant
could be located at the site. Fuel deliveries to Fourth of July
Creek could take several forms; truck delivery from Seward, .
pipeline from Seward, railcar from Anchorage or ship from Valdez,
Nikiski or the contiguous United States. A fuel pipeline to the
site would cost in the neighborhood of one million dol *lars.
Costs for a tanker terminal are covered in transportation
chapter.

WATER

There are two sources of freshwater in the Fourth of July Creek
area. Surface water is available from Fourth of July Creek, and
groundwater is available from the valley alluvium.. Surface water
flows range from 110 cfs (recorded during October, the month with
the most rainfall) to 15 cfs (recorded during October, the month with
with the least rainfall). Continuous use of surface water will
not be allowed as Fourth of July Creek is a salmon.spawning stream
and the Alaska Department of Fish and Game will not allow any
withdrawals from, or work in the stream during critical periods.
Groundwater in the valley alluvium is fed by surface runoff from
the mountain slopes and influent from Fourth of July Creek as it
crosses the delta fan. The derivation of a crude estimate of
groundwater flow during the fall is included in the appendix. From
this it can be estimated that a properly designed well field system
could continuously draw 6 to 10 million gallons a day. The aquifer
P, has the potential of providing a small amount of seasonal storage.
Assuming a properly placed and designed well field, this storage
capacity may amount to 90 million gallons, without causing salt
water intrusion problems. The U.S. Geological Survey will initiate
field work on a groundwater study in the Fourth of July Creek,Area
during July or August of 1979. This study will provide additional
data regarding aquifer storage, withdrawal capacity, etc.

-60.-

Water on the "bench" is only available from stagnant pools of
trapped runoff water. The close proximity and tight jointing of
bedrock preclude the possibility of obtaining groundwater of
good quality or quantity from a well on the bench.

Alluvial groundwater in the Seward area is of high quality, and
is very acceptable for normal consumptive uses. It is not expected
that groundwater from Fourth of July Creek valley should be 714@
qualitatively different.

Groundwater may be obtained from the valley alluvium by pumping
from normally developed water wells, "Chicago" type caisson wells
or infiltration gallery systems. Well and pump sizing will need
to be determined by a study of each industries potential require-
ments, local storage capacity, possible fire flows, and preferred
insurance rating.

Water storage tanks are designed to conform to the specific domestic
and/or industrial water needs in the community. Storage tanks are
generally sized to provide for surge demands, power outage demands,
drout-time demands, and possible fire demands. Storage tanks should
be positioned to provide water at an acceptable pressure to all
users. The type and construction of a tank depends upon local
conditions and preferences. A water reservoir or stand pipe
positioned on the side slope of the north side of the valley could
provide sufficient pressure to most users in the valley without
requiring the supply well pump to pum
.p against an excessive
pressure with increasing pumping cost.' A booster pump drawing
from such a tank could supply water to a high level reservoir, which
in turn would provide water for the bench. The water systems
for the bench and the valley should be kept separate, because
a single system providing an acceptable pressure of 40 psi at
the bench would provide a water pressure of about 350 psi in the
valley unless a pressure reduction system were provided. Similarly,
if a storage tank were only provided to the lower system through
a pressure reduction system, a lot of energy and money would be
wasted pumping water up to the bench. Water storage reservoir
in lace in the Seward area can be presently estimated at $0.80
to WOO per gallon capacity.

Distribution mains will need to be designed to accommodate
peak industrial or fire demands. Fire control purposes require
that hydrants and mains be spaced and sized by the fire hazard
of the area to be served. This will vary with each occupant.
However., certain minimum standards should be met to provide
allowances for growth and change without jeopardizing insurance
ratings. The City of Seward has a minimum line bury depth of
nine feet to prevent the freezing of stagnant water lines.

-61-

Minimum size of main lines should be 811 diameter with 6" being the
smallest size piping in the grid. Construction of waterlines in
the valley could be by conventional methods, however, construttion
of any pipeline from the valley to, or on the bench will require
special design. The soil horizon is very thin over bedrock in
most areas on the bench and surrounding slopes. This will preclude
deep burial and-may require using insulated lines, continually
circulating systems, and/or heat tracing. In some places the
line may even need to be anchored to the bedrock to prevent
soil creep on unstable slopes from pulling the line apart.

Costs

It is impossible to estimate costs for a water system without
knowing the demand or requirements on the system, however, some
costs, (based on arbitrarily sized components) are.presented
here to aid in determining the site feasibility.

Supj2ly System

2-1211 diameter x 801 wells (about 800 gpm/ea.)

1-control building and chlorination system

Wells, with pumps $SO,000/ea. $1003%000

Wellhead Covers $800.00/well 1)600

4001 8" diameter connecting pipe
@ $35.00/ft. 14,000

Control House, controls, chlorination 120,000

Electrical, engineering, contingency 64,400

Total $300.1000

Storage Tank

1/2 Million Gallon Storage Tank

AWWA Steel - Insulated @ $1.00/gal $500,000

Distribution System (Valley Only)
811 line., 200 ft. @ $45/ft 905%000
(includes valves, hydrants, etc.)
61' line, 2000 ft. @ $40/ft 80 000
Subtotal $170,'OU-O

Appx. Total System Cost -62- $lP000P000

SEWAGE DISPOSAL

The Fourth of July Creek area is well suited to conventional
was,tewater collection, treatment and disposal techniques. No
un usual conditions exist that would require specialized or
extremely advanced practices. Resurrection Bay can be used as
the receiving water for wastewater effluent and is located
adjacent to the site. The types of sewage treatment that can be
utilized at Fourth of July Creek are limited by current technology
and agency regulations and not by site limitations.

Essentially three basic sources of sewage need to be considered.
These are domestic, industrial and fisheries wastes. Domestic
wastes can be further broken down into low density industrial
complexes or residential development on one hand and the same
,type of waste but in large quantities on the other.

If the Fourth of July Creek area was developed as low density
residential on large lots or a small industrial development
produced only human and kitchen wastes, the logical solution to
sewage disposal would be on-site systems at each source. The
soil conditions are ideal for septic tank systems with leach
fields. Sizing, leach field design and system complexity would
be dictated by final waste quantity and type.

A larger development producing greater quantities of domestic
sewage would require a central sewage treatment facility. A
collection system would be required to bring the wastes to the
facility. One of the many package treatment plants on the
market today would handle a fair sized development easily. Another
method of treating this type waste is an aerated lagoon similar
to the type the City has selected for Lowell Point. Lagoons are
simple to construct and operate and are relatively inexpensive.

Fisheries wastes probably should be handled by a reduction plant.
Such a system simply removes most of the solids for land disposal
or other uses, grinds the remaining solids very finely and then
discharges the result into the receiving water using a deep outfall.
Human and kitchen wastes produced at a fishery would be handled
by one of the previously discussed means.

Industrial wastes are more complex to treat than domestic or
fisheries wastes. The type of treatment best suited to one industry
may not be adequate for another. Therefore, industrial wastes
can only be evaluated on a case by case basis.

-63-

Each industry is usually familiar with its own wastes and
difficult or special techniques that may be required. These
special-facilities are generally built and operated as part
of the industries development program. No unusual conditions
exist at Fourth of July Creek that would cause these specialized
facilities to be substantially different from what would be
required elsewhere. The effluent limitations imposed on dis-
charge,to Resurrection Bay are not expected to be unusually
severe, so the site would offer an advantage over some locations.

The collection system for sewage can be constructed by
conventional methods. The valley is gradually sloping towards the
bay, so a gravity system with very few lift stations would be
possible. Soils in the valley are generally excellent so no
specialized construction.techniques would be required there.
On the bench, however, shallow bedrock will necessitate that
sewer lines cannot be buried very deeply, so they should be
insulated. This does not offer any significant design or con-
struction problems.

Treated wastewater effluent can be discharged to Resurrection Bay.
A deep outfall into Resurrection Bay can be constructed within
a short distance from shore. Disinfection will not be required
with a deep water outfall in the bay.

Construction costs cannot be estimated with any accuracy until
.details of waste quantities, strengths, etc. are known. The
following figures do provide some indication for development
of p3anning costs.

Coll-ection System

4000 ft. 811 @ $65/ft $260,000

l Lift Sta. @ $6000 ea. 6,000

4.00 ft. 411 @ $50/ft 16,000

282,000

Lago,n (900 population equivalent)

Earthwork 50)000

Liner & dividers 150,000

Mechanical 30,000

Outfall & control 75,000
Total -64- $315P000

Septic Tank & Leach Field

For small to moderate industry
(approximately 3000 gal/day), 25,000

SOLID WASTE

Domestic solid waste generation (garbage) follows a fairly
predictable pattern as far as quantity and type. Household
wastes, paper, and kitchen wastes produced from residential
development, offices, or dining facilities should aim at using
existing disposal facilities. The amount of domestic type
waste that would be produced in this area would not be sufficient
to economically operate a separate landfill system apart from
that system already existing.

Industrial type solid waste falls into many categories. The
U. S. Environmental Protection Agency has classified many types
of solid waste produced by certain industries as "Hazardous
Wastes". These types of waste require that special areas be used
and certain procedures be followed for their disposal. Because
of the soil system in the Fourth of July area, it is not feasible
to dispose of hazardous waste on the site.

Industries that produce large amounts of non-hazardous wastes
(slags, ash, etc.) are likely candidates for on-site landfilling.
Those wastes which have possibility of generating leachates,
contaminating water, becoming putrescible, or are not acceptable
for use as clean fill material must be disposed in an acceptable
state permitted landfill.

Presently the Kenai Peninsula, Borough operates a sanitary land-
fill in the Seward area. Domestic and similar type wastes may
be disposed of there during operating hours. Presently, no refuse
collection or carrier service has a.Public Utilities Commission
permit covering the Fourth of July Creek area as there is no
existing road access to the area.

The Kenai Peninsula Borough operates a hazardous waste disposal
site near Sterling, Alaska (about 85 miles by road from Seward).
Wastes produced in the Fourth of July area that meet the E.P.A.
description of "hazardous wastes" would need to be transported
to this site for disposal. All use of this site must be
coordinated with the Assistant Borough Engineer at the Kenai
Peninsula Borough in charge of solid waste management.

Local soils in the Fourth of July area are washed fluvial sands
and gravels with little resistance to groundwater or leachate
movement. Because of this, any local solid waste landfill, slurry

-6S-

settling pond, or drying bed, will need to have posit ive leachate
control. This may very likely need to be as extensive as a
bentonite clay or asphaltic concrete liner. Specific conditions
would be determined by the operating permit issued by the Alaska
Department of Environmental Conservation.

Costs for using the Seward Landfill or the Sterling Hazardous
Waste Facility are dependent upon yearly operating costs and
operating costs for each specific use respectively. An
industry expecting to use either facility extensively should
contact the Kenai Penninsula Borough for specific, up-to-date
information at the time of use.

Costs for operating and maintaining specialized landfills, etc.,
..are very dependent upon actual operation techniques, construction
details and quantities to be disposed of. No estimates of such
@operations can be attempted without nore specific details.

-66-

CHAPTER X

CONCEPTUAL DEVELOPMENT
PLANS

There.are no site limitations at Fourth of July Creek that pre-
clude development. Nearly any type of industry could locate
at the site, but certain industries would be more likely to than
others. This chapter presents preliminary development plans for
four industries that coul&reasonably consider locating at Fourth
of July Creek. Each of the four plans is for a specific industry
but the four examples cover a wide spectrum and any industry can be
correlated with one of the four plans.

Expansion of fish processing capabilities in the general Seward area
has.excellent potential and the anticipated growth in Alaska's
bottom fishery will require construction of new facilities. No
major shipyards exist in Alaska but a major repair yard is needed.
Oil exploration in the Gulf of Alaska and oil and gas production
in lower Cook Inlet point up the potential for petrochemical
industry growth in the Seward area. Refineries will be needed,
Alaska's royalty oil and gas must be processed, and Seward is a
potential site for these facilities. As Alaska's mineral resources
come to be more fully utilized, transportation and processing
facilities in Alaska will be forced to expand and develop. One
development plan presented here considers a smelter located at
the site. Because of Seward's locationon the Gulf of Alaska, a
smelter could handle other world sources of raw materials. The
fourth development plan considers freight or material handling at
the site.. Because cargo facilities already exist in Seward, this
plan centers on bulk material handling.

The high initial costs of development of the Fourth of July Creek
area requires that a majorindustry be the first to settle there.
Smaller industries can locate in the valley, but cannot support
the heavy front end costs of.development by themselves.

..A number of fe atures are common to any development at the Fourth
of July Creek site. Any development there will require road
access. Two access routes are discussed in the chapter covering
transportationj but the lower route along the shoreline is more
feasible for each of the development plans presented here. Two
of the plans do utilize the "bench" but only for secondary use
such as storage. For this type of use the steeper acce Iss route
discussed in Chapter VIII, Transportation is adequate. The lower.
route roadway and the "bench" access route can be constructed
for less total cost than the upper route roadway.

-67-

Each of the industries analyzed will require a wharf or port
facility of some type. Because the potential for submarine
landslides at the face of Fourth of July Creek fan does exist,
port structures are located at the north side of the valley in each
of the development plans. The dock is in a better position for
connection to rail and highway systems in this location also.

Three of the four development plans include rail service. In
each plan the industrial site is assumed to be receiving large
enough quantities of material from within Alaska to.economically
justify an overland mainline track connection.

A rail alignment following the existing Nash Road will interfere
with the residential development that has occurred there and has
been ruled out for that reason. The development plans presented
here show rail service connecting with the main line at Bear
Lake, seven miles north of Seward.

Any development in Fourth of July Creek basin is faced with
potential flooding by the creek. The creek's braided channel
has moved within the basin in the past and could change its
course again to threaten development there. The creek's present
location splits the valley into two developable areas, one on
each side of the creek. Furthermore, the creekbed removes
valuable land from development. All of these considerations can
be resolved by relocating the creek to the south wall of the
valley and constructing a training dike.

The Alaska Department of Fish and Game has tentatively approved
the concept of relocating the creek. The requirements that must
be met by the relocation project cannot be determined until more
specific details of the move are known, but the project should
be staged over several years of time. Several deep pools should
be constructed aside from the main channel for salmon fry rearing.
The deep pools provide a source of gravel for construction of
roads and other improvements.

Costs for creek relocation and construction of a training dike
are estimated in the following table. The deep pools are not
included in the cost as they provide gravel for construction and
should pay for themselves.

Creek Relocation Cost
@Rock-filled Gabion
40)1000 @ $45 $10800,000

Cutting New Channels 100,000
Rip-rap bed protection
20,000 ton @ $15 300*000
Contingency & Contractor Mark-up 300,000

$2,5009000
-68-

Relocation of the creek is included in each of the four develop-
ment plans. This is necessary for the protection of the development
but also provides the advantages if increasing the developable
area and joining what would otherwise betwo areas into a single
developable tract.

FISHERIES AND SHIPYARD

The needs of a fish processing plant are not especially complex.
Access and utilities must be provided, but the primary require-
ment of a fishery deals with the land-sea interface. Adequate
facilities to handle fishing vessels and their catch and means
of loading and shipping the final product are of prime importance.
A fisheries wharf should also be able to resupply the fishing vessels
for the next fishing tour. Dock facilities for a fishery are
discussed in Chapter VIII, Transportation, and possible arrangements
are shown there.

A major drydock facility at the site should be able to handle 250-
foot vessels. A lift with a railway of approximately 30-foot gage
would be required as well as a large building for shipbuilding or
repair work. The primary requirements of a deepwater port, basic
utilities and large land area are all met at the site.

A roadway must be provided for labor and construction access and
for a connection to the services and utilities at Seward. This
type of development should not create extremely large electrical
demands that require electrical generation at the site. To
supply electricity to the development a transformer should be
located at the site with a transmission line from the substation
at Fort Raymond connecting to the site..

The fisheries industry water usage can be substantial with
potential peak demands of 3000 gpm. Water can be supplied by
a well field in -the mid to upper valley. A water storage tank is
required. Sewage disposal takes two forms; a reduction plant for
the fish processing plant and on-site septic tank-l.each field
systems for domestic wastes. As the ar.ea develops a central sewage
treatment plant may be necessary and can be constructed. Fuel can be
supplied by the bulk plants at Seward to industry at the site and to
fishing vessels. Solid waste generation from this development should
not require special handling and can be taken care of through the
Borough's existing landfill.

As the site is developed, other industries would join the fishery
in locating there. A small commercial boat harbor for fishing
vessels would be required in addition to the fisheries wharf at
a minimum. A large sized general small boat harbor could also
be constructed to relieve the present overcrowding at the existing
small boat harbors in Seward. Finally, the State could build a
.hatchery in the valley utilizing the man-made pools in the creek
relocation as rearing ponds. Figure X-1 shows a plan of the
valley fully developed around fishery and shipbuilding industries.

-69-

WELLHOUSE
0 AND WELLS@'

3OF T GA Al
FOR SHIP
BUILDING YARD

DRY D CK
LIFT
BOAT STOR E HATCHERY

HIP BUILDING

REPAIR FACILITY
FISH ROCESS
PL r

RESSURECTION SAY PARKING

SMALL BOA
HARBOR
FISHERIES Ek
SHIPYARD

41,
DEVELOPMENT

FOURTH OF JULY CREEK
SEWARDs ALASKA
FIGURE X-

1500

SCALE: 1 1000,

Costs for development are tabulated below. Actual industry costs
are excluded. A discussion of methods for financing this
development follows the four development plans.

Item Cost (Millions)

Stream Relocation with dike 2.5

Lower Access Road (Paved) 3.4

Local Roads .5

Fisheries Wharf and Small Boat Harbor 11.0

Electrical (with back-up) 1.4

Water System 1.0

Lagoon & Sewer System .6

Total 20.0

PETROCHEMICAL

The needs of a petrochemical processing plant are not unlike those
of other large industries. These include a large developable
site, good access, raw material and product transportation systems,
large amounts of electrical power, and the basic utilities. An
industry based on petrochemical processing will need a large area
with good.foundation material for both product and raw material
storage.

The industrial plant itself will need sufficient area for reactors,
etc. as well as control buildings. Sufficient space available
for future expansion also becomes a major factor in determining
site useability. The Fourth of July Creek site provides a large
useable area, with close to 700 acres of@developable land in the
valley, and over 300 acres of useable area on the bench. The lower
route road access will provide good access for construction
personnel and equipment, as well as operational staff. The road
corridor will also provide a good routing for telephone lines or
any pipelines to be placed. A main-line railraod'access can
provide raw material and product movement within Alaska. Raw
petroleum could e moved from Fairbanks to Seward with tariffs
around 8-9@/gal . Unit train movements may reduce this even more.

The Fourth of July site offers the additional value of being able
to accommodate a tanker loading of off-loading,terminal. The
Fourth of July Creek area provides sufficient site room for
Tariff rate estimated by Assistant to the General Manager
of the Alaska Railroad during telephone conversation 2/26/79.
_71-

generation facilities. Salt and fresh water for cooling are
available and the "bench" provides for good air diffusion of all
stack emissions. The bench also provides bedrock foundation
material for any heavy and/or vibrating loads that may be found
in such systems. The Fourth of July area allows for economical
development of water and sewer systems, and has access to existing
normal solid waste and hazardous waste disposal sites.

Development

Once the training dike on the creek has been constructed and
the initial access road is pushed through, actual development of
the s-ite can begin. As fish rearing ponds are developed and
gravel i*s excavated the rail link to Woodrow and the access road
to the bench can also be constructed. Raw and product material
tank farms, the actual industrial complex and a tanker terminal,
should be constructed simultaneo 'usly. Expansion. of the complex
and tank farms could be accommodated later by extensive use of
the "bench". A rail-barge facility can also be added to
accommodate rail car product movements out of Alaska.

A power generation site and plant would need to be developed
prior to completion of the industrial complex.

Some costs of the development are given below.

Item Cost (Millions)

Stream relocation with dike 2.5

Lower Road Access @3.4

Access Road to "Bench" 0.6

Rail-Line Access 12.0

Local Rail Yard 1.7

Tanker Terminal 6.0

Local Roads 1.5

Water System 1.2

Rail-Barge Facility (optional) 6.1

Total $35.0

FREIGHT HANDLING

A number of types of freight handling are possible as discussed

m.'72-

RA MAT IAL
ANK F M
00

rq@
WAT
WE
AND WELLS

E X PANS ON
AREh

PRODUCT FUTURE WELL
TANK FARM
00
% REFINERY TE

DIK

ALTERNATE EXPANSION
GENERATI SITE

AREA
RESSURECTION BAY

PETROCHEMICAL
DEVELOPMENT

(LOWER SITE)

FOURTH OF JULY CREEK
SEWARD, ALASKA
FIGURE X-2

1500

SCALE: I"= 1000'

W RAI OAD

N ROA

RESSURECTION BAY

4y 1500

1000

A E AVAILABLE PETROCHEMICAL
F R GROWTH
DEVE LOPMENT

(UPPER SITE)

FOURTH OF JULY CREEK
POWE
GENER ON SEWARDo ALASKA
S ITE
FIGURE X- 3

R W M RIA
4L
T N F

in Chapter VIII, Transportation. Containerized freight is
presently handled in both Whittier and Anchorage. Both of these
locations have advantages over Fourth of July Creek in'being
located closer to the population centers and largest markets plus
being established, operating facilities. Both facilities are
capable of increased volumes and could be expanded@more readily
than a new facility could be constructed in Seward. General
cargo is brought into Alaska at Seward as well as Anchorage and
Whittier. General cargo facilities at Fourth of July Creek would
have the same disadvantages as containerized freight. Such a
facility would also be competing with the existing facilities
at Seward.

Bulk materials are not being shipped in any significant volume
anywhere in the state at the present time. With resource
development, however, the potential exists for bulk shipment of
such items as coal, copper, zinc, lead, and other metal ores.
No facilities exist for handling large quantities of materials
of this type, so new facilities will have to be constructed.
The Fourth of July Creek area offers an attractive site for
such a facility. The bulk material could be shipped to the site
by rail and stockpiled there for transferral to sea vessels and
shipment to final markets.

A bulk material handling and storage facility will have very
basic needs. Rail access must be provided for the material
supply. A material handling system will be required to stock-
pile the material unloaded from rail cars and also to load sea
vessels The unit train concept should be used and the cars
should @nl\ slow down to unload but keep rolling. Road access
y
should also be provided to supply the site from Seward and for
labor and construction access.

The dock facility should be a bulk material loading facility as
described in Chapter VIII, Transportation. Utilities and ser-
vices in general will rely on the existing facilities at Seward.
A bulk material handling system will not require extremely
high electrical consumption. A distribution line should be
installed to run from the substation at the highway to the
industrial site. Water can be supplied by a single well. Sewage
wastes will be domestic and quantities will be low as this
development won't employ a large number of people. A septic tank
and leach field is adequate. Solid wastes should be disposed
of at the existing Borough landfill.

Figure X-4 shows a bulk material storage and shipping facility.
Development costs for this plan are estimated and given in the
following table, but the industries direct cost are excluded.

-74-

42
500

Ac@

BULK MATERIAL STORAGE AREA

LK MATERIAL STORAGE AREA

GENERAL OFFICE BUILDING . .... ..

RESSURECTION BAY

4". 0

BULK MATERIAL
HANDLING
FACILITY

FOURTH OF JULY CREEK
SEWARD, ALASKA
FIGURE X- 4

15, 0 0

SCALE I"= 1000'

Item Costs (Millions)

Stream Relocation with Dike 2.5
Lower Access Road (Gravel) 2.9
Rail Line Access 12.0
Local Rail Yard .8
Bulk'Material Port Terminal 6.0

Total $24.2

HEAVY INDUSTRY

A metal refinery or reduction plant at Seward appears to be
compatible with the resource availability and economic
factors characteristic of the Seward.area. Modern metal
reduction plants can be either electrolytic or utilize
classical smelting techniques, but modified to reclaim the
unwanted.sulfur-rich gases which formerly were major pollutants.
Modern refineries or reduction plants have been built at
Clarksville, Tennessee and Inspiration, Arizona which have
very good operating characteristics as far as pollutants are
concerned.

Refineries are dependent on availability of both mineral con-
centrates and on relatively inexpensive energy. Metal con-
centrates.are at least potentially available in Alaska and the
Yukon Territory. In the last fifteen years major deposits*of
massive sulfide-type have been found in Alaska, and several are
productive in Canada. The Alaskan deposits are basically zinc-
copper type, as at the Arctic or Picnic Creek deposits, or
zinc-lead type in the Red Dog-Lik area in the Brooks Range,
occurrences in the north flank of the Alaska Range, and at
Greens Creek at Admiralty Island. A zinc refinery, probably
of electrolytic type, would enhance the economic potential of all
of these deposits, probably more than either a copper or lead
refinery. Because of the high metal-sulfur ratio, a lead con-
centrate could be shipped out of Alaska for refining; and,
although copper concentrates often,contain high sulfur contents,
the common presence of gold and silver in a copper concentrate,
as well as the higher price obtained for copper than zinc, may
also enable economical copper concentrate export.

Zinc concentrates are potentially available to an Alaska refinery
from the Yukon, and it is at least possible that Alaska could
capture some of the water-borne concentrates now shipped to East
Helena, Montana and Bunker Hill,, Idaho via the port of'Portland,
Oregon.

Energy is at least potentially available at Seward from hydropower
sites, or from oil fuel products for the Trans-Alaska pipeline.

_76-

The resources for a zinc plant are at least potentially identified
and could be produced with present technology. There is also the
possibility that a refinery for sea-floor nodules containing
copper, nickel, and cobalt in a manganiferous matrix could be
located.at Seward. Although mining techniques are available for
nodules, there remain major legal and technical problems, as well
as that of marketing the abundant manganese product.

Technical capability for operation and construction of metal
refineries is available within several of the mining corporations
now operating in the state.

A metal refinery will require a road to the site for labor and
service access, a rail connection to the mainline track for raw
material supply and a port facility for shipment of refined
metal and also to receive ore from other sources. The port
facility requirements can be met by a bulk material terminal
similar to the design presented in the transportation chapter.

Utilities for the facility will include a well field and storage
tank for water and septic tank systems for domestic sewage wastes.
Electrical demands will be large and on-site generation must be
provided. The power generation facilities should be constructed
to also provide the City of Seward with power and share invest-
ment costs.

Basic uti lity and access costs for this industrial site are
estimated in the following table. Figure X-5 shows a possible
layout for the metal refining industry at Fourth of July Creek.

Item Cost (Millions)

Stream Relocation With Dike $2.5

Lower Access Road (Paved) 3.4'

Access. Road To Upper Area .6

Rail Line Access 12.0

Local Rail Yard .8

Bulk Material Port Terminal 6.S

Water System 1.2

Total $27.0

-77-

CONVEY
LOADING
SYSTEM

500

ATER TANKS
AISE

sl
Oftf-

0
ge EXPANSION R070%1"',
1A

(SLAG STORAGE)

ELLS
METAL REFINERY

FINISHED METAL
DUCT TORAGE

CONVE YOR

SYSTEM
RESSURECTION BAY

Offi
A w,
METAL REFINERY
&M
DEVELOPMENT

(LOWER SITE)
A",

'Ail
FOURTH OF JULY CREEK
SEWARD, ALASKA
FIGURE X- 5

1500

SCALE I"= 1000'

Ilk

RESSUECTION BAY

1500

Po
GE 4 ATION
FACIL
T METAL REFINERY
m o DEVELOPMENT
0 (UPPER SITE)
FOURTH OF JULY CREEK
SEWARD9 ALASKA
FIGURE X-6

SCALE looo,
LLLL

FUNDING

Access, site utilities, and some local improvements may be
eligible for funding aid from a variety of sources., Both
State and Federal agencies have programs that can provide aid
to the City of Seward for improvements. Aid may come in
several forms; grants, loans, low interest bonds, federal
agency programs, etc.

Railroad access to the Fourth of July Creek area (mainline or
rail-barge facility) may be funded in a number of ways. One
would be for the developer to construct the facilities. Another
method, possible only if the industry moving in could certify
use of sufficient rail traffic., would involve a U.S. congressional
appropriation to the Alaska Railroad for construction of the
facilities. This would reflect a slightly higher tariff rate
to repay the capital investment. A third method would involve
a cooperative effort of several parties, including the City of
Seward, the State of Alaska, industry, private citizens benefiting
from the railroad, and the Alaska R.R. under a cost sharing pr Iogram.

Road access to the industrial site can be provided by funding
other than the industrial developer. Nash Road is presently a
State maintained secondary road. Funding for the extension of
this road may be.available through the Alaska Department of
Transportation and Public Facilities. The City of Seward may
need to approach the Regional Planning Manager for the Central
Region (Alaska D.O.T.) and certify the necessity of the road,
and obtain a priority position within the Capital Improvement
.Program. If sufficient funds are not available, or other reasons
prevent the improvement of Nash Road under this program an
effort may be made to obtain a direct legislative appropriation
for the Alaska State Legislature for the required improvements and
extension.

Site utilities such as water and sewer are eligible for 50%
matching funds from the State Department of Environmental Con-
servation. These funds will only match the amount the City pro-
vides. Other programs providing funds in the hundred thousand
dollar range for public utilities and facilities include the
U. S. Department ofCommerce Economic.Development Administration,
Public Works Grant Program; and the Housing and Urban Development
Block Grant Program.

Port facilities other than small boat harbors have a low
potential for government funding. Presently the City of Seward is
-eligiblefor a $500,000 grant for port facilities other than
small boat berthing.facilities. Other grant or matching-funds do

-79-

not appear to be available at this time. The Corps of Engineers
is planning a study of the most economical method of expanding
the small boat harbor facilities in Seward. This is to take
place sometime in 1979, but present attitude is that the Fourth
of July site is not feasible due to lack of access, etc. The
Corps of Engineers has no. funding or authority to construct the
expansion at this time. In order for the Corps of Engineers to
design and construct a harbor congressional authority and an
appropriation is required. Such appropriations have historically
only been for about 50% of the needed funds, requiring State and
local participation to complete the funding. The State presently
has $2.0 million of approved bonding it can sell to provide for
small boat harbor funding in Seward.

The City of Seward can obtain large amounts of capital for con-
struction by selling bonds. The Farmers Home Administration can
buy large amounts of bonds at interest rates around 5% for certain
types of projects. Flood protection structures, utilities, and
port facilities may all be acceptable for this type of program.
All specialized construction and development unique to a specific
industry would require private capital. However, the City and
the State could utilize bonding as a means of financing support
if this total concept made good sense.

-so-

CHAPTER XI

RECONSIENDATIONS

This study has shown the feasibility of industrial develoT)ment at
Fourth of July Creek. Known facts about the area were collected and
interpreted and other factors such as transportation, utilities, etc.
were analyzed. A preliminary soil analysis was also conducted.
Before any development is initiated in the area, however, more
specific investigations and studies must be undertaken. The following
subjects are recommended for further study:

A comprehensive soils study of the water - delta interface
area should be conducted to conclusively determine the
probability and danger of submarine landslides.

Detailed site - specific soil analysis should be conducted
before any design or construction is begun.

- A groundwater study is scheduled to be conducted in the fall
of 1979.

- A detailed floodplain analysis should be undertaken to
determine the hazard of both creek and coastal flooding.

- A field investigation will be required to select the final
access road alignment.

- A port facility study should be conducted to determine the
best location and methods of construction for dock facilities.

- A comprehensive power requirements study should be developed
to evaluate the alternatives available for supplying power to
the industrial park.

- Comprehensive water and wastewater facility plans should be
developed concurrently with any proposed development plans.

The subjects for study listed above must be evaluated during the
planning stages of any development. Several other items should
receive immediate attention,, however., because development at Fourth
of July Creek will be dependent upon them. These are:

- Easements for access road rights-of-way should be developed
now to prevent delays when development in the area begins.

- Details for relocation of the creek should be negotiated with
,Alaska Department of Fish & Game at an early date to determine
total cost for this improvement.

-81-

The Nash Road extension should be placed on the Alaska
Department of Transportation and Public Utilities Capital
Improvement Program so that it may receive State funding.

-82-

REFERENCES

Geologic Factors Bearing on Development at Five Sites
in Upp er Resurrection Bay, State of Alaska Department
of Natural Resources, 1976.

2) Report on Subsurface Investigation for City of Seward
Alaska and Vicinity, Shannon and Wilson, Inc., 1964.

3) Flood Plain Information - Resurrection River and Salmon
Creek, Seward, Alaska, Department of the Army, Alaska
51@strict Corps of Engineers, 1975.

4) Resurrection Bay SFC Wind, R. Schulz, U.S. National
Weather Service.

5) Surface Winds in Some Alaskan Coastal Passes, G. Phillip
Weber, Weather Bureau, Airport Station, Anchorage, Alaska.

6) Seward Concept Plan, Kramer, Chin & Mayo, Inc., 1975.

7) Seward Port Facility Study for Seward, Alaska, R&M
Consultants, Inc., 1977.

-83-

APPENDIX

-84-

I
PROJEcr 47H' OF-JULrcrKl-sfwwb rEsr SORINS NO.
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aArf' aE'GUV Z - 7R
LOCATION 01AGRA.M: A
A A A OATE COMPLErED
I--- Ag,451cr OF aMoolsr 1141 1<,L1)VE-
Sz- 0 PF
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WEArHER -'5LIIVNY
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9OIL. DESCRIPrION

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(.4- Z3 ZAMPLE -6--4.5' /"00e OE60VE.,@V PETAINEf-I e')N01

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LOCATION DIAGRAm:
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GEOL 0 GIs r

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-NUMBERS IN BOXES
REPRESENT:
51.0 SURFACE ELEV.
3O.OWATER TABLE ELEV,
>

1.0 BEDROCK ELEV

... .....
PROFILES OF
SHOWN IN
GURE A-2
VIC

500
4

1.0
30.0
1.0
58.0

15.5
6.5

J-

SCALE: I"=2,000

GROUNDWATER POTENTIAL ANALYSIS
FIGURE A- I

k/V/-\7E-R -TP,,13LE- 5L4KFA(-E- PROFILE-

4 NALWW

P-OOOFT HORIZ.,
a F- R0(- K I ":'P-00 FT VEJ;,:'T.

V ;,
po-5,5, IIppFK zoo
BE-L@ KOC K

PROFILE LJME- P@

WAI-E-R -T/-NF3) F W's 1000FT POR/Z
5 LA RPA,-E- FRCF) I F 200 FT VERT

PF\OF/LF- LIAJF j5

REVISION DATE BY
PROJECT NO. 70-0/1 GROUND WATER PROMLE
Arctt rm DESIGNED: DpW
rM'0rnVAb6-K)-CZ(6 DRAWNs b r- P, LINF-5
CHECKED. FKV FOURT14 OFJULY CREEK
DATE: 3-7c@ F16&lKE A@-
SCALE: A-6 SHoWIV rSHEET

Approximation of Groundwater Flow

Method and permeability values taken from:
Hydrology for engineers, Linsley, Kohler, Paulhus,
McGraw-Hill Book Company, New York New York
1958

Q C gallons 1 day) = Kp A s
Kp = permeability in gpd/sq. ft.
A = cross-sectional area in sq. ft.
s = hydraulic slope parallel to flow in ft/ft

From Table 6-2
Material Permeability Gpd/sq.ft.
Clay 1
Sand 800
Gravel 5,000
Sand & Gravel 2,000
Sandstone 700

Use Kp =1,000 gpd/sq.ft.
A = 3.45 x 106 ft2
s = (58-6.5)/5,400 = 9.9x103 ft/ft

Q= Kp A s
= 1,000 x 3.45 x 106 x 9.9 x 103
= 34.16 MGD

-93-

9N REPLY REFER TO
2620 (941)
United States Department of the Interior A-056973

BUREAU OF LAND MANAGEMENT
Alaska State Office MR 3 0 1979
701 "C" Street, Box 13
Anchorage, Alaska 99513

CERTIFIED MAIL
RETURN RECEIPT REQUESTED

DECISION

State of Alaska A-056973
Division of Lands
323 East Fourth Avenue General Purposes
Anchorage, Alaska 99501 State Selection

Application Rejected In Part
Lands Proper for Selection
Tentative Approval Given

On April 13, 1962, the State of Alaska filed selection applications
A-056973 and A-056975, covering all available lands in T. 1 S., R. 1 E.,
Seward Meridian under the provisions of section 6(b) of the Statehood Act
of July 7, 1958 (72 Stat. 339@-343). These selections were later combined
under serial number A-056973. On July 18, 1966, the State amended its
selection application to include the lands now described as U.S. Survey
No. 4828 which had been restored to the public domain by Public Land
Order No. 3893. On September 6, 1967, the State amended its.selection to
include the lands now described as U.S. Survey 4827.. On June 16, 1972,
the State amended its.selection to include all lands in the township
excluding patented lands, including lands formerly embraced in
headquarters site application A-034014.

Section 6(b) of the act of July 7, 1958, granted the State the right to
select lands which are "vacant, unappropriated and unreserved at the time
of their selection." The lands in sections 1 through 6, inclusive.,
.T. I S., R. I E., Seward Meridian, are within the Chugach National Forest,
are unavailable for State selection and therefore the selection
application must be and is hereby rejected for these lands.

The lands in U.S. Survey 4827 and U.S. Survey 4828 and the lands formerly
embraced by headquarters site A-034014 are not separated from other lands
available for selection, therefore comprising isolated tracts of public
land which are unreserved,, are not known to be occupied or appropriated

CONSERVE
AMERICA'S
.ENERGY

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Save Energy and You Serve America!

under the public land laws, including the mining laws, are not valuable
.for hot or medicinal springs, otherwise conform to the requirements of and
are properly selected pursuant to the Statehood Act of 1958.

In view of the foregoing, the following described lands, aggregating
473.87 acres of surveyed land and approximately 5 acres of unsurveyed land
are considered proper for acquisition by the State and are hereby
tentatively approved:

U.S. Survey 4827, Alaska situated on the easterly
shore of Resurrection Bay.

and

U.S. Survey 4828, Alaska situated on the easterly T
shore of Resurrection Bay.

and

The unsurveyed land in protracted T. 1 S., R. 1 E., Seward Meridian, more
particularly described as:,

Beginning at corner No. I (a spruce tree 12 inches
in diameter) which bears approximately E.35'N.,
k mile from corner No. 2 of U.S. Survey 1651, thence
northerly 460 feet to corner No. 2 (a round spruce
stake), thence easterly 460 feet to corner No. 3
(a flat spruce stake), thence southerly 460 feet to
corner No. 4 (a flat spruce stake), thence westerly
460 feet to corner No. 1 the point of beginning.
(Lands formerly embraced by headquarters site A-034014.)

When the lands are patented to the State, the patent will contain a
reservation for canals and ditches under the act of August 30, 1890
(26 Stat. 391) and a reservation to the United States of a right-of-way
for the construction of railroads, telegraph, and telephone lines under
the act of March 12, 1914 (38 Stat. 305).

Pursuant to the Alaska Native Claims Settlement Act of December 18, 1971
(85 Stat. 688), there will also be reserved for the benefit of the Alaska
Natives and for payment into the Alaska Native Fund the percentage of
royalties and revenues derived from the disposition of leasable minerals
as provided for by section 9(c) of the act.

For the portion of this selection within U.S. Survey 4827 and 4828, we
will proceed to patent when this decision becomes final. Survey has been
requested on the remaining selected lands under group 146.

-95-

Enclosed are current status plats showing the tentatively approved lands.

In accordance with the regulations in 43 CFR 4.400, the applicant has the
right of appeal to the Board of Land Appeals, Office of Hearings and
Appeals. See enclosed form. If an appeal is to be taken, the notice of
appeal must be filed in the Alaska State Office at 701 C Street, Box 13,
Anchorage, Alaska 99513 within 30 days of the receipt of this decision.
To avoid summary dismissal of the appeal, there must be strict compliance
with the regulations.

7V/ Pbbert E. Sorenson
Chief, Branch of Lands
and Minerals Operations

Enclosures:
Form 1842-1
Regulations,
Plats

cc:
Darryl Schaefermeyer
Assistant City Manager
City of Seward
P.O. Box 337
Seward, Alaska 99664

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4th of July development needs
large industry or several small
It would take a large in- go along the beach line (ap- dered if the state is really
dustry to develop the site and prox. cost $2 1/2 million), or committed to letting Seward
create access to the 4th of July farther back above the bench select the land. He doubted the
Creek area's, a study by Artic and into the valley (at a cost of land policies of the present
Environmental Engineers $4 1/2 to $5 1/2 million). A state administration. "The
reveals. The study was up for railroad link could be money I might make on the
public hearing at the City provided coming in from Bear site is secondary," Lindsey
Council meeting Monday Lake and along the bay. said, "I think it is great this
night. Though there was a Water access would depend work is being done toward
capacity crowd in attendance, on the type of ship, Vail said. securing the site and feel the
only three testified or asked With a dock costing anywhere jobs that would result are the
questions. from $5 to $20 million, depen- most important factor," he
Engineer Sid Clark in- ding on whether it was built to added.
troduced the study, and it was accommodate bulk or con- City Manager Johnny John-
summarized by Franz Vail, tainerized cargo, rail barge, son said the largest ship-
who was project engineer for small boat harbor, etc. building firm in the nation is
the study, which was funded The area would require all interested in locating a facility
with money from Outer Con- the basic utilities but an in- in Alaska--he added that the
tinental Shelf grants. dustry like petrochemical study information will be
Clark told the audience that would be expected to generate going to that firm in the next
the study was contracted a its own power. A bottomfish few days. "They are asking
year ago but went into high development, smelter, or the state to supply information
gear when the city bid to storage and transportation site on possible sites--we already
the Alpetco refinery located would require city-provided have the information they
here. He said his firm and electricity. Wastes could be need with this study," he ad-
CH2M-Hill worked together taken care of with septic tanks ded. He said the firm estimates
to produce the information or a small sewage treatment spending $50 for a ship
which was presented to Alpet- plant. The city could assist an building and repair facility so
co. The completed study in- industry in sewage treatment, the $20 to $40 million it would
cludes soils testing, assessment getting federal and state sup- take to develop 4th of July
of the various means of access, port. would not daunt them.
possible industries that might The study addressed four
make use of the site, possible industries (although
topography, climate, depth of Clark pointed out many more
water and wind and at- were possible). It was pointed A public hearing was held on the
mospheric conditions which out that the creek would have Fourth of July Creek Feasibility
could determine what in- to be relocated to make best Study during the April 23, 1979
dustries would be appropriate use of the valley floor site, Seward City Council meeting. The
or even possible. however. Estimated cost local newspaper's account of that
Vail said the site consists of would be $20 million. public hearing is presented here.
two areas--the 650 acre valley A petrochemical facility was
floor and the 400 acre bench estimated to cost $35 million.
area above and to the north. It would require a bulk ter-
He said prevailing winds could minal, using the upper bench
be expected to cleanse the air for storage. Tankers and rail
of any industrial smoke or cars could be incorporated.
smog, with north winds in the A bulk material transfer site
summer. Just offshore the to tie in with coal transpor-
bay is some 100 feet deep, tation or grain from Delta,
making a deep water port would need railroad connec-
feasible, Vail added. Ground tions and probably utilize the
water studies are still being higher road. It would cost an
conducted by the U. S. estimated $24 million.
Geological Survey and should A metal refinery was
be ready by fall. The valley is estimated to cost $27 million.
subject to flooding when the It would also use the upper
creek over-runs and the study road and would require heavy
includes suggestions on how power usage.
best the creek might be moved. Clark said the area could be
Vail said his firm had been in utilized by more than one in-
contact with the Department dustry, bringing more diver-
of Fish and Game which sification to the economy. He
would agree to moving of the added that although ad-
creek if fish rearing is not ditional studies would no
damged or is enhanced. doubt be needed by a specific
Vail said the land is industry contemplating use of
predominantly government the area, the study itself was
owned, with only two tracts of already superior to info-
privately owned land. Much of mation available on other in-
the state owned land has been dustrial sites in the state with
claimed by the Kenai Penin- the possible exception of An-
sula Borough and the City of chorage and Valdez. "And I
Seward, with the borough think it is superior to infor-
deferring to the City. Both mation available on Valdez,"
Vail and Clark urged the City he added.
to begin getting easements Willard Midby testified at
from private landholders for length, asking questions about
both the site itself and possible various segments of the study.
road or railroad access. He doubted the bottomfish
Vail said a geological con- industry would ever
sultant had drilled test holes, materialize, "Because the
which revealed that the bench Japanese control the
area is predominantly processors". He said at a
bedrock, with gravel in the Corps of Engineers public
valley. The water table is at 30 hearing last fall 4th of July
feet. The tendency for avalan- was not discussed as a possible
che at one slope brought the Small Boat Harbor site--but
suggestion that a 500 foot the northeast corner of the bay
safety zone be created. had been. He felt ore transport
Vail said transportation into was the most likely use of the
the area can be by both land or area.
water. Air traffic, other than Bruce Trygstad asked if the
helicopter, would be im- study had addressed transport
practical. A road could either of coal with water through a
pipeline. Clark replied in the
affirmative, saying the
pipeline could be located along
the railroad.
Dale Lindsey, the private
landholder in the area, won-
The Seward Phoenix Log
Thursday, April 26, 1979