pace of oil and gas development in Scotland (1970-1977) pointers for American planners : a staff working paper

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

I
THE PACE OF OIL AND GAS DEVELOPMENT
IN SCOTLAND (1970-1977) --
POINTERS FOR AMERICAN PLANNERS

COASTAL Z&NE
INFORMATION CENTER

HD
9571 .7 ERSEY DEPARTMENT OF ENVIRONMENTAL PROTECTION
B87
I Division of Marine Services
T

1978
Office of Coastal Zone Management

COASTAL ZONE
INFORMATION CENTER

THE PACE OF OIL AND GAS DEVELOPMENT IN SCOTLAND (1970-1977):

POINTERS FOR AMERICAN PLANNERS

A Staff Working Paper

property of CSC Library

Helga Busemann

October 1978

------

New Jersey Department of Environmental Protection

Division of Marine Services
Office of Coastal Zone Management
P. 0. Box 1889
Trenton, New Jersey 08625
DEPARTMENT OF COMMERCE NOAA
COASTAL SERVICES CENTER
2234 SOUTH HOBSON AVENUE
CHARLESTON, SC 29405-2413

This report was written by Helga Busemann in her private capcity.
No official support or endorsement by the Department of Environmental
Protection or any other agency of the State of New Jersey is intended
or should be inferred.

DEPARTMENT OF ENVIRONMENTAL FRIOTECTICN@
TRENTON Rk-EASE ADDRESS R.E!-LY TO:
P. 0. aox 1889
DIVISION OF MARINE SERVICES R E NT 0 11. N. J. 0 ZS 2. 5

October 1978

Dear Friend of the Coast:

This document is another one in this Office's series of
working papers intended to contribute to a better understanding
of coastal issues. This document reports on the pace of
offshore oil and gas exploration and development in Scotland
in the early 1970's.

Ms. Busemann began the research for thi-s paper under a
Fellowship from Columbia University prior to coming to this
Department in 1976. While the Scottish experience is, of
course, not directly translatable to New Jersey, there are
a number of planning principles which hold true where Outer
Continental Shelf (OCS) activities are contemplated. This
staff working paper emphasizes, for example, the need for
early planning and identification of potential conflicts.
The Department of Environmental Protection has acted upon
many of the recommendations presented in this report, which
are offered here to assist other participants and observers
in onshore planning in the United States for OCS activities.
I hope this paper will clarify some of the issues surrounding
Outer Continental Shelf planning and encourage further
initiative,s to,,ensure that this new coastal-dependent activity
will be compatible with those other activities now existing in
the coastal zone. ,

I invite your comments on this paper.

-Sincerely,

D
@id N..,Kinsey, Chief
av
Office of Coastal Zone
Management

TABLE OF CONTENTS

Page

Table of Contents i.

Tables and Figures ii.

I. Introduction I

Ii. Onshore Bases: Aberdeen and its Satellites 5

III. Well Drilling and Platform Building 13

IV. Transportation: P Iipelines, Tankers and
Terminals 21

Ve Processing: Oil, Gas, Petrochemicals 30

VI. Planning By Local Government 35

VII. Planning By Britain's National Government 44

VIII. Conclusions and Recommendations for American
OCS Planners 48

Acknowledgements 53

Bibliography 55

TABLES AND FIGURES

page

Table 1 Wells Drilled East of Scotland and Shetlands 14

Table 2 Time Interval (in years) between Discovery and
Installation of First Platform and Between Platform
Installation and Production Start-Up for 9 Fields
in the North Sea 16

Table 3 Platform Building Pace in nScottish" North Sea 18

Table 4 Transportation of Oil and Gas to Shore in
Scottish Sector of North Sea 22

Table 5 Major Pipelines in Scottish Sector of North Sea 23

Figure 1 Support Bases and Onshore Facilities in Scotland 6

Figure 2 Oil and Gas Pipeline Landfalls in Scotland 9

1. INTRODUCTION

The offshore industry is new in Great Britain. It
started in 1964 with the leafe of blocks east of England
where gas fields were found. In industrial England, the
onshore effects of these initial gas discoveries made little
impact on the existing industrialized society. In contrast,
further lease sales in waters east of Scotland resulting in
significant oil and gas discoveries brought visible changes
to the land and economy of Scotland. The growth of the
offshore oil and gas industry in Scotland has been rapid and
generated interest among planners attempting to understand
the process of change. Because environmental and social
baseline conditions before the coming of the offshore oil
industry to Scotland and the northern islands of Shetland
and Orkney were known and documentable, the region has
served as a laboratory to planners fascinated with the
process of growth and change.

This report is based on observations and interviews
concerning the onshore impacts of offshore drilling in
Scotland conducted during two visits there in 1975 and 1977.
Its purpose is to examine some of the changes that have
taken place since oil-related industry moved into Scotland
in the 1970's and to discuss the extent to which*these
changes may be common to other frontier regionst specifically
to the Atlantic Coast which anticipates an influx of oil and
gas efploration on the Baltimore Canyon and the Georges
Bank. Indeed this matter has assumed a certain urgency
with the Exxon Corporation having spudded the first well in
the Baltimore Canyon on March 29, 1978.
A similar itudy was performed by Pamela and Michael
Baldwin in 1975 .. While the Baldwin report inspired this
writer's initial interest in offshore oil and gas, this
report is intended as an update of their@initial findings.
In 1975 insufficient time-had elapsed to document the pace
with which new discoveries had been brought into production.
The time to plan for onshore facilities between the moment
of a commercial discovery and production is short. A discovery
is termed "commercial" after several wells have been drilled
which permit the size of a reservoir to be delineated.
Whether a field is determined commercial depends on several
factors including the depth of water, distance of the reservoir
to land and whether a pipeline already exists which a company

*Footnotes may be found at the end of each chapter.
**A frontier region is one which is experiencing impacts of
outer continental shelf oil and gas development for
the first time.

can hook into. Once a field has been declared commercial
there is the danger that there might not be enough time to
ensure the orderly placement and development of onshore
related facilities which could result in disbenefits to
local communities. Since some facilities necessitated by
Outer Continental Shelf development must be routed through
coastal areas which are often unique, serving as recreational
resources for a greater than local region, it is important
that the relatively short life span of onshore facilities
not spoil the longer lasting resource irreparably. This
report indicates that with proper planning,disruption can be
avoided and looks at the Scottish oil and gas experience
from that perspective.

Recognition that the Scottish offshore with its harsher
climate and operating conditions-has more relevance to the
North and Mid-Atlantic frontier states than the gentler
environment of the Gulf States, has focussed these states'
search ior a model on Scotland rather than on the Gulf of
Mexico. Also in the Gulf, development occurred gradually,
moving from onshore to offshore over a period of twenty
years. The oil and gas industry, in the Atlantic Ocean in
contrast started to drill in deep waters right from the
start as it did in the North Sea.

With Scottish lifestyles and economic conditions being
so different from those in the northeastern urbanized states,
Outer Continental Shelf (OCS) planners in the Atlantic
states have had little to go on since the changes and onshore
impacts which resulted from offshore activity in the Gulf of
Mexico were never fully documented. Further, while Alaskan
planners are carefully documenting impacts of oil and gas
development there, their studies are for the most part still
underway so that the literature is sparce.

It should be noted, however, that the volume of oil and
gas discovered in the North Sea is much higher than that
which may be found in the Atlantic Ocean and that the level
of impacts on the Atlantic coast may subpequently not be as
great as those described in this report.0

In the following chapters the following phases of
exploration, development and production will be discussed:

Chapter II Onshore bases and the evolution of Aberdeen
into the oil capital of Europe

Chapter III The pace with which well drilling and platform
building has occurred

Chapter IV The various modes of transportation (pipe-
lines, tankers and terminals) used to land
and bring the hydrocarbons to market

-2-

Chapter V Downstream activities related to reviewing
applications for refineries, gas processing,
and petrochemical plants

Chapters VI The benefits of planning to promote orderly
and VII development and conservation of land and
water resources at the local and national
government level

Chapter VIII Recommendations to planners anticipating
onshore impacts from offshore oil and gas
drilling

-3-

Footnotes

iThe British Continental Shelf Act of 1964 ratified
the Geneva Convention of'1958 on the Law of the Sea.
This conferred states bordering oceans with sovereign
rights over the natural resources below the seabed
to a depth of 200 meters. Where several states
adjoin a water body, such as the North Sea, the
application of median lines is used to apportion the
seabed equitably. The Continental Shelf Act empowered
the Secretary of State for Energy in Great Britain
to grant licenses for exploration, development and
production of oil and gas.'
2Lease Sale 40 in the Mid-Atlantic covered tracts in
the Baltimore Canyon estimated to contain between 0.4
and 1.4 billion barrels of oil and between 2.6 and 9.4
trillion cubic feet of gas. The lease sale was held
August 17, 1976, but court challenges have held up
exploration. Resource estimates for the total Baltimore
Canyon amount to 6 billion barrels of oil and 32
trillion cubic feet of gas. Lease sale 42 was the
first one scheduled for the North Atlantic. It was
postponed on January 31st pending court challenges.
Lease Sale 42 tracts are estimated to contain between
.15 and .53 billion barrels of oil and 1.0 to 3.5
trillion cubic feet of gas. Mean resource estimates
for the total Georges Bank are .9 billion barrels of
oil and 4.4 trillion cubic feet of gas. (All estimates
are those of the U. S. Geological Survey).

3
Pamela L. and Michael F. Baldwin, Onshore Planning
For Offshore Oil, Washington, D.C., Conservation
Foundation, 197f.
4See the Baldwin book supra and James K, Mitchell,
"Onshore Impacts of fshore Oil: Planning Implications
for the Middle Atlantic States", J. of American Institute
of Planners J., October 1976, p. 386, and New Hampshire
Department of Resources and Economic Development,
The Impact of.Offshore Oil: New Hampshire and the
North Sea Experience, Concord, New Hampshire, 1975.
The New England Riviii Basin Commission has also drawn
from the North Sea experience developing criteria
such as the Tech Updates for OCS development along
the Atlantic-Coast.
5Britain now ranks tenth in the world as a petroleum
producer (New York Times, March 22, 1978, p. 1). The
Baltimore Canyon by contrast is estimated to contain
about 6 billion barrels of oil of which Lease Sale 40
is estimated to contain one sixth. See Footnote 2
above.

-4-

II. ONSHORE BASES: ABERDEEN AND ITS SATELLITES

Support bases are ports or facilities for boats supplying
offshore drilling rigs during exploration, development and
production. During exploration two supply boats are customarily
used to service one exploratory rig or platform. During
exploration, such boats transport approximately 1,000 tons
of materials per month including fuel, drilling fluid and
chemicals. Support bases also include the helicopter ports
which transfer work crews offshore. Because of economics,
they are usually located closest to offshore operations.
Both marine and helicopter bases are potential generators of
growth with'marine bases attracting the ancillary OCS
industry and air bases inducing a demand for housing by
helicopter crews and supervisory personnel.

Aberdeen's rise as Europe's oil capital started following
the discovery of the Forties field by the British Petroleum
Company (BP) in 1970. Thereafter, engineering and specialized
tool companies established headquarters in the city with the
presence of one attracting the other. In addition, the city
government set out to woo the oil industry by sending delegations
to other countries to solicit business as well as hosting
conventions such as "Offshore Scotland" and "Offshore Europe"
similar to the Offshore Technology Conference held.in Houston
annually.

Aberdeen is now the principal support base for both
operations off the mainland of Scotland and off the Shetland
and Orkney Islands to the north (See Figure 1). It is the
principal air base for operations off the main coast of
Scotland, while Sumburgh is the major airport for operations
off the Shetland Islands. Aberdeen owes its position as a
primary onshore support base to its all-weather harbor,
proximity to offshore fields and an existing infrastructure
which includes the availability of ship repair, boat charter,
and catering services; housing; labor force and its airport
which services helicopters operating within a 200 mile
radius. Space at the harbor itself is very limited and has
forced all but essential water-dependent activities elsewhere.

Two integrated service companies which deliver "one-
stop shopping" services to a number of individual oil
contractors as well as individual oil bases leased by Shell
Oil, Total Marine, a French oil.company and Amoco are
located at the Harbor. ("One stop shopping" enables supply
ships to stock up on equipment, fuel and food at one dock
and head back to the platform or drilling rig in less than
24 hours in contrast to the past when ships might spend one
or more days in refueling). In addition, Aberdeen's fishing
industry and a new roll-on, roll-off ferry have berths in

Figure I
SUPPORT BASES and ONSHORE FACILITIES IN SCOTLAND

(D PIPECOATING PLANT Sullom Voe
0 PLATFORM CONSTRUCTION
0 " PROPOSED" PLATFORM t
MODULE CONSTRUC71ON IF 0
OIL-GAS SEPARATION SHETLAND
A PETROCHEMICAL PLANTS
PROPOSED" Le i
scobwo
MLL RIG SHIP CONSTRUCTION H
REFINERY
SERVICE BASE COMPLEX
SERVICE B4S_E
POWER STATION
I TANKER TERMINAL ORKNEY
f TANKER FARM
-OIL PIPELINE
-G-GASPIPEUNE
PG PROPOSED GAS PIPELINE Flotta
H HELIPORT
A AIRPORT

X stornoway PG

LEWIS

MORAY FIRTH
Nigg PG
CROMARTY FIRTH
Loch Kishom Ardersier StFergus..
Skye Drumbuie Inverness Peterh ruden Bay
ATLAN11C .1 -A
G m
OCEAN berdeen

0 SCOTLAND

Montrose

undee
Por. NORTH
FIFE SEA
Portkil @Methfl

side R 0
I Grongernouth
G Edk*uMh
N man=

G ENGLAND
0 50 100,
miles G Teeside
R
r
w

-6-

the Harbor. Because of space constraints, oil companies
maintain only essential dock space at the harbor while
leasing additional space elsewhere in the Aberdeen area for
storage and offices.

. Interestingly, British Petroleum, which maintained a
supply base in Aberdeen until the Forties find, moved its
operations to Dundee shortly thereafter because of the
growing congestion at the harbor. Even so, it retains its
administrative headquarters near the airport in Aberdeen.

Since the discovery of oil, ship movement in the Harbor
has increased considerably necessitating the installation of
radar equipment. The Harbor Authority expanded, modernized
and deepened some of the quays up,to 32 feet at low tide to
accommodate the new oil activity and traditionaluses of the
harbor. At the same time, the fishing fleet also benefited
from the expansion and realignment of quays since its own
piers were modernized in the process.

Aberdeen's airport is almost as important as its harbor.
The airport now has international service to London and
other oil capitals in Europe such as Stavanger in Norway and
Amsterdam in Holland. The airport also services helicopters
carrying personnel back and forth from the rigs. Because of
the close rapport which the American oil industry in the
Gulf Coast maintains with British oil interests, there was
talk in 1977 of establishing an airlink between Aberdeen and
Houston.

Aberdeen vis a vis Shetland Islands

Between 200 and 300 miles separate the oil fields in
the eastern Shetland Basin from Aberdeen. Notwithstanding
this distance, Aberdeen has remained the primary support
,base for these fields rather than the Shetlands which are
closer to them. This is because Aberdeen eliminates the
double-handling of materials and equipment which would have
had to be delivered to the Shetlands from the mainland in
any case and whidh is costly and time-consuming. The Sumburgh
Airport on the Shetlands, however, serves as the major
helicopter base to transfer personnel to the Shetland oil
fields. It seems that poor weather and primitive road
conditions between Sumburgh and Lerwick have resulted in air
personnel preferring to wait out delays in Sumburgh rather
than in Lerwick. This has in turn spurred considerable
development in previously isolated Sumburgh.

Other ports along the Scottish coast have tried to
attract the oil industry but with limited success, despite
the congestion at Aberdeen Harbor. This is probably because
they lack some of the amenities of Aberdeen such as its
airport, labor force and services. Where they have specialized
in providing a particular service, however, such as pipeline

-7-

storage, in the case of Peterhead, they have fared better.
The following discussion of satellite bases on the Scottish
coast may serve to put in relief Aberdeen's advantages as a
service base.

Peterhead

Peterhead is located north of Aberdeen close to three
pipeline landfalls. See Figure 2. Until legislation was
passed in 1972 to remove an 1884 stipulation that no activity
other than fishing take place in the picturesque "Harbor of
Refuge", it sTemed that oil and gas activity might pass
Peterhead by. The local port authority leases space to two
integrated service companies and a number of individual oil
companies. the harbor serves as a base for the storage of
pipeline sections. While the pipeline for the Forties field
is complete, two gas pipelines are being constructed just
north of the harbor with the pipeline lay barges operating
out of Peterhead. Although an application for a transfer
terminal for bulk chemicals was turned down for safety
reasons, Peterhead may yet develop into a distribution
center for the gas liquids and their derivatives being
processed at the nearby St. Fergus terminal. Indeed an
ammonia plant in Peterhead was proposed although it is
doubtful whether it will be built now because of a slump in
the fertilizer market.

Dundee

Dundee is a regional center with a university, rail and
water access located south of Aberdeen. In addition to
servicing the British Petroleum marine base for the supply
of equi,pment and fuels it also serves Conoco and acts as a
tione-stop service base" for other companies. Dundee has
welcomed these new activities which fill a gap left by the
decline of the jute industry which had previously been an
important generator of port activity. It has failed to draw
the anciliary industry, however. This is probably due to
its proximity to.Aberdeen and that city's market influence
which extends into the Dundee area.

Montrose

Montrose located between Aberdeen and Dundee could also
have served as an onshore support base. Even though its
Harbor Authority modernized the port for oil and gas by
dredging and deepening the channel which measured six feet
initially, it has failed to attract more than about one or
two bases but has some ancillary services.

FIGURE: 2

PIPELINE LANDFALLS THISTLE M N SON
IN SCOTLAND Duki-Ill

CORMORANT 9RIENT

HEATHER

36* Ott.
SHETLAND NINIAN
ISLANDS

SULLONVOW

FRIG

ullsomesil

ORKNEY ISLANDS

SCAPA KIRKWALL
,LOW

30. OIL LINE

pan

AV MON9

ST. FERGUS
NOWARTY FINT" PUTI[RIMIAD 00-

."VaRwalls
ORUD 4 "T

A01901949
SCOTLAND

100

STATUTE MILES

The Firth of Forth

The river Firth of Forth is somewhat removed geograph-
ically from direct onshore support activity but its wide
flat banks, deep water channels and its proximity to an
urban labor market in the vicinity of Edinburgh have attracted
secondary oil and gas construction activity. Platform and
coating yards have located along the mouth of the river.

The location of yards in a relatively urban setting is
beneficial to employees who may be laid off between platform
orders or following the shutdown of a pipeline coating yard
since they will find it easier to obtain other work in
contrast to locations where the yard may be the only employer
in a region.

Summary

The bridgehead that was established in Aberdeen during
exploratory drilling in the 1960's became permanent once
significant volumes of hydrocarbons were found and attracted
a large ancillary industry. The OCS industry's proximity to
Aberdeen University has providedthat institution with an
on-site, live and fertile laboratory for research and the
monitoring of socio-economic and environmental impacts. In
addition, experts from the University have been employed as
consultants on pipeline building projects. In this way oil
activities have gained acceptance by the community. Also,
capitalizing on Aberdeen's natural assets was the city
government which encouraged the modernization and expansion
of the harbor and airport. It also played an important role
in creating a hospitable climate for the industry to work.

Aberdeen's success in becoming Britain's oil capital
has not been accomplished without a price. This has been in
the form of increased traffic congestion, inflation and
housing shortages. Housing construction, for example, has
declined as workers left traditionally relatively low paying
jobs for the higher wages offered by oil companies. In
addition, the difficulty of finding accommodations in Aberdeen,
even in the off-season because of the oil industry practice
to reserve whole blocks of rooms in hotels, has probably
caused Aberdeen's summer tourism industry to suffer even
though "bed and breakfast" establishments have taken up some
of the slack.

Support Bases in the Middle Atlantic

Unlike Scotland, no oil company has gravitated to any
particular port in the Mid-Atlantic. While Atlantic City,
closest to the tracts leased in S.ale 40, has been selected
by companies as a helicopter base, the inlet into the island
harbor often subject to frequent shoaling, barely satisfies

_10-

the minimum 20 feet depth requirement of the workboats. The
inlet is, in addition, bordered by fringes of wetlands which
are strictly regulated by the New Jersey's Department of
Environmental Protection.' Lastly, the City has not proven
very hospitable to the oil industry since casino gambling
emerged as the potential future savior of the aging city.
Until significant discoveries are found, therefore, most oil
companies will probably operate their boats out of Rhode
Island which has wooed the companies and leased space to
them at a former naval base on apparently rather favorable
terms. Nevertheless, because of the existing infrastructure
and the location of the field office of the U. S. Geological
Survey which supervises oil industry operations, it seems
.more than likely that Atlantic City will emerge as a limited
center of oil activity, should commercial volumes of oil
and/or gas be found.

A-Rutgers University study indicated that Perth Amboy
within the bi-state Port of New York and New Jersey met more
of the physical criteria for support bases than other locations
in New Jersey. The Port Authority of New York-Ne,w Jersiey
also identified several iites within the bi-state port as
potential support bases . Since oil companies traditionally
prefer to use non-union laor, however, it is possible that
they may avoid the bi-state port which is heavily unionized.
Outside of New Jersey, Lewes in the state of Delaware has
been cited as a potential support base. If more southerly
tracts are leased in future lease sale there is a strong
likelihood that the industry will site g support base in
Lewes which has already been soliciting the OCS industry to
locate there. With respect to pipelines, New Jersey's
proximity to the leased tracts make it more likely that it
will be a landfall for any gas and/or oil pipeline as
commercial discoveries are found. The state of New Jersey
has taken this eventuality into account in its coastal
energy policies which would permit pipelines subject to a
number of conditions,,and performance standards.% Though
platform construction yards are,,not dependent on the locations,
close to the center of exploration and development since
they could be floated into place from the Gulf of Mexico,
Brown and Root, a large platform fabricator, has bought land
in Cape Charles, Virginia to build a platform yard.

Footnotes

The British government viewing oil in terms of
serving a national interest, acted swiftly to revoke
the 1884 stipulation. It subsquently authorized
the expansion and modernization of the harbor. The
Harbor is managed by a local authority as an agent
to the Secretary of State which obtained jurisdiction
of it in 1960.

2
Rutgers University, Center for Coastal and Environmental
Studies, Bruce Hoff et al, Onshore Support Bases for
OCS Oil and Gas Development: Implications for New
Jersey, September 1977.
3The Port Authority of New York and New Jersey, Support
Bases for Offshore Drilling: The Port of New York
T-otential, May 1977.

4
See U. S. Department of Commerce, National Oceanic
and Atmospheric Administration and N.J. Office of
Coastal Zone Management, State of New Jersey Coastal
Management Program, Bay_and Ocean Shore Segment,
Draft Environmental Impact Statement, May 1978, page
137, et. seq. See also N. J. Department of Energy,
The State Energy Master Plan (Draft) Paper, June 1978
and the background policy paper, Determination of the
Need for Energy Facilities, May 1978.

-12-

III. WELL DRILLING AND PLATFORM BUILDING

Estimates concerning reserves in a frontier area remain
assumptions until exploratory drilling either confirms or
negates them. Often it may require a number of exploratory
wells to be drilled before oil and/or gas is found. Following
a strike, appraisal wells are drilled to determine the size
of the find and whether economics would warrant its reco 'very.
Table 1 shows that 262 exploratory wel.ls were drilled between
1967 and 1976 in the waters of Scotland and the Shetland
Islands. During that period 14 commercial fields were
discovered ("commercial" is determined by the individual
companies, not the government). Definitions may vary
depending on estimated costs of production. This success
ratio of 1 to 18 is considered high relative to that in
other oil producing regions including the Gulf of Mexico
where a ratio of 1 to 40 is more typical.

Table 1 shows that an average of 3.7 exploratory and
6.67 development wells were drilled per year during the 1967
to 1976 period. The higher development drilling well rate
probably results from the greater certitude an operator has
of a site following its appraisal as compared to when he
drills a "wildcat" for the first time.
Rig ime measure's the amount of time that a rig actually
operates.

To develop the fourteen commercial fields 20 platforms
have been ordered, twelve of which will be of steel And
seven of concrete. The Argyll field is deploying a converted
drilling rig as its platform.

-13-

Table 1
Wells Drilled East of Scotland and Shetlands
1967-1976

Rig Time (Years)
Exploratory Deployed in Wells/Rig Development Rig Time
Wells Drilling Wells /Year Wells Years Wells/Rig/Year

1967 7 .8 4.7 -
1968 1 .8 5.16 -
1969 8 2.1 5.45 -
1970 10 2.2 4.15 -
1971 17 4.0 4.6 -
1972 16 6.8 2.72
1973 26 10.7 2.42
1974 51 20.6 2.46 - - -
1975 73 25.6 2.75 8 1.1 7.27
1976 53 18.3 2.82 48 7.9 6.07
262

Source: Development of the Oil and Gas Resources of the United Kingdom 1977 Department of Energy

once a discovery has been determined to be commercial,
the most important decision concerns the design of the
platform needed to recover the oil. -As platforms are
becoming more sophisticated and complex, costs are increasing.
Over 40 development wells can be drilled.from one platform
and drain a large field through directional or slant drilling.
Operators are producing all but the largest fields from one
platform in the Scottish North Sea. The large Brent and
Forties fields with reserves of one billion barrels of oil
each are being produced from four platforms. The more
recently discovered Ninian field, however, also with a one
billion barrel estimated reserve, is expected to be drained
with only three platforms which will have 40 wells each in
contrast to the 27 wells on the Forties platforms.

Over one third of the platforms being installed on the
Scottish North Sea are of concrete rather than the traditional
steel. This is because of their reputed stability in those
stormy and deep waters. Another advantage is their storage
capacity during emergencies and.between loadings when tankers
are used as the transportation mode to shore.

Table 2 indicates the time lapse for the first nine
fields which are being produced in the North Sea between the
discovery and the first platform installation. This period
averaged 3.33 years between 1967 and 1976. The installation
of the Montrose platform took six years, the longest interval,
possibly because this was the first field discovered and no
operative procedures were in place. Platforms on the smaller
fields were installed in as little as two years after they
were established as being "commercial".

The table also shows the interval between platform
installation and production start up. Once a platform is in
place, production wells are drilled. This interval has
averaged,1.1 years in'Britain. The British government has
permitted production start-up before the completion of-all
wells and before pipelines were in place. In the United @ -
States, start-up*does not usually begin until all development
wells have been drilled and pipelines are in place. In the
United States, development drilling is generally completed
in two years following platform installation. Britain's
speed has been more rapid based on its desire to reduce
imports of fuel and to improve its balance of payments.

Table 2

Time Interval (in years) between Discovery and Installation of First Platform
and between Platform Installation and Production Start-Up for 9 Fields in the North Sea

2 3 4 5 6
Time Interval Time Interval Time Interval
Installation between Production between between
Field Discovery of Platform (1) and (2) Start Up (2) and (4) (1) and (4)

Argyll 1971 3/75 4 1975 0 4
Auk 1971 7/74 3 1976 2 5
Beryll 1972 7/75 3 1976 1 4
Brent A 1971 5/76 5 1976 1 5
B to 8/75 4 - - -
D if 7/76 5 - - -
Claymore 5/74 7/75 1 1977 2 3
Forties A 11/70 6/74 4 1975 1 5
B 19 6/75 5 - -
C is 8/74 4
a% of
D 6/75 5 - - -
Montrose 1969 8/75 6 1976 1 7
Piper 1973 6/75 2 1976 1 3
Thistle 1973 8/75 2 1977 2 4

Source: Oil,and Gas Journal "Petroleum 2000", August 1977 and Department of Energy, "Development of the Oil and
Gas Resources of the United Kingdom 1977", Her Majesty's Stationery Office, London, England

Table 3 reveals that of the twenty platforms built or
on order between 1967-76 no more than three were built in
any one yard. This is probably due to operator's desire to
have platforms (which may take between one and two years to
construct) installed as rapidly as possible and the reluctance
to place an order with any plant that has any kind of backlog.
While this speed is desirable from the operator's point of
view, the idle periods between platform orders are often
disruptive for a community which will be impacted by worker
layoffs. Such impacts are discussed in more detail in
Section IV.

The figure of 5.4 years nevertheless represents a
remarkably swift rate of development which is much shorter
than the eight year figure between discovery and produc@ ion
cited by United States industry for the Atlantic Coast.

The controversy thatthe actual siting of platform
yards has provoked hjs been described in the earlier literature
about the North Sea.

-17-

Table 3

Platform Building Pace in "Scottish" North Sea

Estimated Reserve Platform
Discovery (in 000 barrels) Platform Building
Field Company Date as of 8/1/77 Type Yard

Producing Fields:

Argyll Hamilton 1971 under assessment converted rig

Auk Shell 1971 60 steel Methil, Scotland

Beryl Mobil 1972 511 concrete Norway

Brent Shell 1971 1,680
Platform A steel Methil
B concrete Norway
D concrete Norway
00
C concrete Ardyne Point
Scotland

Claymore Occidental 1974 416 steel France

3
Forties BP 1970 1,750
Platform A steel Teeside, England
B steel Teeside
C steel Nigg Bay, Scotland
D steel Nigg Bay

Montrose Amoco 1969 146 steel France

Piper Occidental 1973 620 steel Scottish/(Ardesier:
French-joint
enterprise

Thistle BODL 1973 555 steel Teeside

Table 3 (continued)

Estimated Reserve Platform
Discovery (in 000 barrels) Platform Building
Field Company Date as of 8/1/77 Type Yard

Fields Under Development:

Claymore Occidental 1974 416 concrete Ardyne Point

Comorant Shell 1972 150 concrete Ardyne Point

Dunlin Shell 1973 584 concrete Holland

Heather Local 1973 146 steel Ardesier

Ninian A Chevron 1974 1,022 concrete Loch Kishorn
B it steel Nigg Bay

UK Stratford Conoco 1974 428 steel Nigg Bay

Reserves are being reassessed.

2
The UK Stratford field straddles the British-Norweigan sectors and will be developed under a unitization
agreement still being worked out.

Source: Department of Energy
Development of Oil and Gas Resources of the United Kingdom 1977

Footnotes

The March 1978 issue of Offshore reported that the
Claymore field was brought into production in 3.5
years. Swift development was attributed to proximity
of the Shell field to the large Piper field and the
economies of scale which would result by Claymore
production being routed through the Piper pipeline.
Dick Mutch, "Claymore Fields Set North Sea Record"F
p. 102.
2Pamela Baldwin and Michael F. Baldwin, Onshore
Planning Offshore Oil, op. cit, and New Hampshire
Department of Resources and Economic Development,
The Impact of Offshore Oil: New Hampshire and the
North Sea Experience, 1975.

-20-

IV. TRANSPORTATION: PIPELINE, TANKERS, AND TERMINALS

Oil and gas are coming ashore today by pipeline, tankers
and through newly built marine terminals as shown on Table
4. This chapter discusses the several modes in which oil
and gas are landed in detail.

Pipelines

In 1977 two pipelines were landing oil in the Scottish
North Sea: one with its landfall in the Orkney Islands and
the other landing on the mainland of Scotland. (A third
pipeline was in place although oil will not flow through it
until the terminal at Sullom Voe in the Shetlands is ready
to receive it, in late 1978). Gas pipelines were not in
place and gas was either reinjected back into the wells or
flaredpending completion of the pipelines. (See Table 5).
Speed in laying pipelines depends in part on weather conditions,
the particular lay barge being used, water depth and size.of
pipelines. on the average it took about one day to lay one
mile of the pipeline landing in the Shetlands. To speed up
the process, it is possible for a single pipeline to be laid
by two lay barges starting at opposite ends of the pipeline.
It is also.possible to start constructing a pipeline before
a platform is in place as was the case with the Ninian
field.

oil

In the Gulf of Mexico a veritable "spaghetti" network
of pipelines has been built over the past 25 years. To
avoid this, the Bureau of Land Management, at the insistence
of frontier states on the Atlantic Coast has stipulated that
common carrier lines (with several companies sharing in
their cost and maintenance) be constructed in designated
corridors.

In Britain in contrast there seems to be no strong
compulsion by the government to encourage the concept of
common carrier pipelines. on the other hand, the concept
works on an informal basis where operators of small fields
adjacent to a larger field have found it economically
desirable to hook into the major trunkline rather than build
their own line or tanker it ashore.

British Petroleum built the first oil pipeline. The
111 mile submarine line comes ashore at Cruden Bay on the
Scottish mainland, a few miles north of Aberdeen. Cruden
Bay is the closest landfall to the offshore tracts, which
served as an important locational factor in view of the high
cost-($1 million per mile) of submarine-pipelines. An
onshore pipeline of approximately 130 miles links the
offshore pipeline to BP's Grangemouth refinery.

_21-

Table 4

Transportation of Oil and Gas to Shore in Scottish Sector of North Sea
6/77

Discovery Estimated Reserve Production Landing
Field Name Owner Date Million Barrels Startup Mode Comments

Argyll Hamilton 1971 ? 1975 Floating system Production from a
converted platform

Auk Shell 1971 60 1976 Floating system
SPAR

Beryl Mobil 1972 511 1976 Floating system

Brent Shell 1971 1,680 1976 Tanker initially;Gas being flared until
then pipeline gas line is in place

Claymore Occidental 1974 416 1977 Tanker, then
to pipeline hookup
to Piper

Forties BP 1970 1,750 1975 Pipeline

Montrose Amoco 1969 146 1976 Floating system

Piper Occidental 1973 620 1976 Pipeline

Thistle BODC* 1973 555 1977 Floating system,
then pipeline
hookup to Piper
line

Source: (British) Department of Energy, "Development of the Oil and Gas Resources of the United Kingdom 1977".
Her Majesty's Stationery Office, London England.
*British Oil Development Corporation. (See Chapter VII).

Table 5

Major Pipelines in Scottish Sector of North Sea

Completion
Field Terminal Owner Length Diameter Date Comments

Oil:

Forties Cruden Bay BP 11.1 mile 3211 1975 Links to onshore pipeline
to Grangemouth refinery
and tankfarm at Dalmeny

Piper Flotta terminal Occidental 124 mile 3011 1976 Sells to British refineries
Orkney Islands

Claymore Piper tie in Occidental 8 mile 30" 7

Oil Pipelines Under Construction:

Ninian Sullom Voe Chevron 105 miles 3611
Shetland Islands

Heather Ninian Union Oil 22 mile 16"

Brent Sullom Voe Shell/Esso
Shetlands

Comorant Sullom Voe 93 mile 36"

Thistle Dunlin BODL Ltd. 7 mile 2411

Dunlin Comorant Shell 17 mile 2411

Gas Pipelines Under Construction:

Brent St Fergus Shell 281 mile 36111

Claymore Piper Occidental 16 mile 2211

Table 5 (continued)

Major Pipelines in Scottish Sector of North Sea

Completion
Field Terminal Owner Length Diameter Date Comments

Norwegian Pipeline:

Ekofisk Teeside (England) Philips 220 mile 3411 1975

Frigg St. Fergus Total 225 mile 32" May 1978

Source: (British) Department of Energy, "Development of the Oil and Gas Resources of the United Kingdom 1977",
Her Majesty's Stationery Office, London, England.

Shell's pipeline from the Brent field to Shetland is
now in place although oil is not yet flowing through it.
The pipeline is 93 miles long. The oil is to be pipelined
to the Sullom Voe terminal late in 1978 when all four platforms
on the Brent field are completed. From Sullom Voe tankers,
will transport it to British refineries. Oil from the one
producing.platform on Brent is already being tankered to
refineries owned by Shell and Esso, owners of the field, in
Britain.

The Brent pipeline will also transport oil from the
Dunlin, Comorant and Thistle fields the first two of which
;are owned by the Shell-Esso group. The Thistle field is
owned by the British National Oil Corporation.

A 10,5 mile oil pipeline into the Shetlands has been
completed to land oil from the Ninian oil field owned by the
Chevron group. It will also land Union's oil from the
Heather field. The oil companies indicated that two separate
lines were needed to land oil from the Brent and Ninian oil
fields which are located in relatively close proximity to
one another offshore. The two pipelines are 32 inches each
in diameter. the construction of a larger diameter pipeline
holding a larger capacity which might have eliminated the
second pipel-ine was apparently not deemed technically
feasible in view of the prevailing water depth, water pressure
and state of the art. A fourth pipeline takes oil from the
Claymore and Piper Fields to the Orkney Islands.where it is
transferred by tanker to market.

Gas

Unless liquefied by cooling - an expensive process over
short distance,s - gas cannot be transferred ashore by tanker.
Therefore, it must be transported by pipeline.

In Britain the gas industry is a monopoly regulated by
the British Gas Corporationr Oil companies sell gas found
in the British North Sea to the British Gas Corporation I
which introduces@the processed natural gas into the national
gas grid. It sells back any gas liquids or derivatives to
the oil or chemical companies. I

British gas is building a terminal on 500 acres at St.
Fergus to process gas from Shell's Brent field which is
expected to provide 15 percent of Britain's gas. St. Fergus
was th2 closest environmentally sound landfall to the Brent
field. It will also receive gas from other fields including
the Norwegian Frigg field. Norway is allowing gas from
Frigg to be transported to Scotland since the technology to
lay a pipeline across the deep trench separating the field
from the Norwegian m.ainland does not exist yet. Both the
operator of the Frigg and Brent fields, Total Marine

-25-

and Shell Oil are building facilities directly adjacent to
those of the British Gas Corporation from whom they are
buying back all but the methane which is going into the
British Gas grid system. Shell is building an onshore gas
pipeline with Esso from St. Fergus to Moss Morran (near
Edinburgh) - a distance of some 150 miles -to process these
liquids further and then transport them to Britain, Europe
or the United States.

Two pipelines have already been constructed into St.
Fergus and the design of the terminal allows for a third
should that become necessary. Constructing the pipelines
involved breaching the dunes in two places. Because of the
care 1which included selecting the proper season for con-
struction) with which-the dune sections were removed, replaced
and reseed?d, no long term impacts are expected from this
operation.

British Gas, British Petroleum and others are under-
taking a study to determine the feasibility of building a
gas pipeline gathering system to recover gas found in other
fields which is currently being flared.

Marine Terminals

Aside fr*om some oil from British Petroleum's Forties
Field being refined and marketed in Scotland, most other oil
c_;, (in the absence of overland oil pipelines) goes to England
by tanker.

The new tanker activity has necessitated the building
onshore of transfer terminals and single point mooring buoys
where tankers are offloading oil directly from platforms.
Single point mooring buoys are sometimes called deepwater
ports in the United States. The discussion below describes
onshore marine terminal construction on the Orkney and
Shetland Islands to which large volumes of oil are being or
will be delivered by pipeline. The completed Scapa Flow
terminal is in the Orkney Islands; the Sullom Voe terminal
in the Shetland Islands (see Figure 2) is expected to start
operating late in 1978.

Scapa Flow received its first oil in 1977 from the
Piper field. The terminal is designed to handle 500,000
barrels a day through the pipeline and store four and a half
million barrels of oil (or a 9 day's-supply from the oil
fields) in five, one-half million and two, one million
barrel storage tanks. Each tank is surrounded by a berm or
dike to contain the contents should a break occur in the
tanks. Associated gas is separated at the terminal. The
lighter gases are used to power the oil burners. Propane is

-26-

stored,..in two-100,000 barrels for shipment by 30,000 dead
weight ton-liquid petroleum tankers. Crude oil tankers load
from single point mooring buoys in the port while liquid gas
is loaded onto smaller tankers docking at a jetty.

Water treatment facilities remove oil from ballast
tanks on board the tankers and remove impurities in the
formation waters contained with the discovered oil. Water
is discharged into the ocean with no more than 25 parts per
million (ppm) oil permitted as effluent. (In the United
States the range is between 30 and 52 ppm). Sampling
stations monitor pollution. The terminal has fire fighting
equipment, skimmersi and low toxicity dispersants to handle
accidents. This equipment was tested shortly after oil was
first landed at the terminal when a single point mooring
line came loose from a tanker in winds ranging up to 68
knots, in 6 to 8 feet high waves. Thereafter, the Harbor
Authority mandated that future loadings would not be per-
mitted under storm conditions. (Storm gauges-which had
signaled the danger were apparently ignored).

Sullom Voe

The Sullom Vo-e terminal though larger will have facilities
comparable to those at Scapa Flow. It is being built to
handle one million barrels of oil and associated gas per day-
initially, with expansion up to 3 million barrels per day
possible.* Its storage capacity is equivalent to between 4
and.7 days of production. Jetties are intended to handle
tankers between 13,000 and 300,000 dwt. LPG gas will be
offloaded on a separate jetty. About three tankers a day or
1,000 per year are expected in-the harbor. The planning
that was involved in the siting of this terminal is described
in Section VI.

Mini-Terminal

Following the discovery of the Forties field, British
Petroleum built a tanker-loading island in 72 feet of water
at the end of half a mile of underwater pipeline in the
Firth of Forth river, downstream of its refinery at Grangemouth.
The terminal permits tankers to load crude oil which will be
marketed in England. The terminal can handle tankers up to
30,000 dwt. and load at the rate of 15,000 tons per hour. A
tank farm located a mile inland from the river is connected
to the terminal by an underground pipeline. The tank farm
was built on spoils from oil shale mining operations during
the 1910's.. Landscaping permitted the tanks to be placed
into a hollow which is surrounded by a high grassy bank.

*If reports on July 11, 1978 of a major oil strike by British
Petroleum west of the Shetlands are confirmed, then the.@
foresight in providing excess capacity at the terminal will
have been more than vindicated.

-27-

The tanks are thus not visible from nearby and constitute no
eyesore. In addition to the storage tanks there is a
treatment plant to handle oily ballast water. BP officials
are proud of the design of this terminal and make a point to
show it to visiting planners both from Britain and overseas.

-28-

Footnotes

Dr. William Rtichie and L. Walton, Environmental
Appraisal of Pipeline Landfall Site Area at St.
Fergus (Rattray Bay), University of Aberdeen,
November 1975. See also: Dr. William Ritchie,
Environmental Problems Associated with a Pipeline
Landfall in Coastal Dunes at Crudeh Bay, Aberdeenshire,
Scotland, American Society of Civil Engineers (reprint
from Proceedings of the 14th Coastal Engineering
Conference, Copenhagen, Denmark, June 1974.
2
The Loch of Strathberg just north of St. Fergus was
British Gas' first choice for a landfall but was
ruled out because it was in the path.of a bird
migratory route.

-29-

V. PROCESSING: OIL, GAS, PETROCHEMICALS

Important as is onshore planning for offshore exploration
and development, it becomes even more crucial for the production
phase when processing facilities will be built to market the
oil and/or gas. The siting of such facilities can be crucial
in determining land uses for many years since such plants
may attract ancillary industries such as the chemical industry
for which oil and gas are essential feedstocks. In Britain,
North Sea oil has replaced imported oil to a large degree.
Even so, a company such as British Petroleum, with its
production from the large Forties field, plans to continue
to import heavy, sulfurous Arabian crude oil. The Arabian
product is cheaper than the high-grade, low-sulfur North Sea
oil and will be used for blending and to fill an existing
demand. When questioned about the potential adverse air
impacts from burning Arabian crude oil, officials indicated
that Britain's island position and consequent superior
dispersion characteristics made air pollution less of a
problem than in other countries.

A 1977 report by an organization similar in function to
the Chamber of Commerce in the United States estimated that
Arabian crude could well continue to command thirty percent
of the British Til market, thereby freeing some North Sea
oil for export.

Because of Scotland's limited demand for new petrochemical
production, most petrochemicals produced in new plants in
S.cotland are expected to be exported to either England,
Europe or the United States.

Below, four projects are described concerning the
construction of processing facilities to indicate the type
of facilities that the British government is reviewing
during the production phase of North Sea oil and gas extraction.

The first pFoject consisted of an ammonia plant which
was to be built by a Swedish firm in Peterhead to capitalize
on the gas by-products produced at the nearby gas plant at
St. Fergus. There is some doubt now whether the plant will
be built because of the large investment costs in building
the plant and the uncertainty of the world fertilizer market.

A second more active project involves a chemical plant
to be built by the Shell Oil Company. The original proposal
was to build it in Peterhead using the harbor to export bulk
chemicals by tanker. Harbor limitations obliged Shell to
look for another site. Local opposition was base on potential
,tanker hazards and the inadequacy of the seawall surrounding
Peterhead Harbor. The seawall was not believed to be high
enough to contain heavy seas during a storm and protect the

-30-

@tankers and their potentially hazardous cargo from damage.
If the chemical plant had been approved in Peterhead, it
would doubtless have had a sizeable impact on the small
community in terms of attracting workers from the two existing
industries: fishing and agriculture. Peterhead's largest
industry, the Cross and Blackwell cannery has already
suffered as a result of the oil industry which tempted low
paid employees to defect to the higher paying oil-related
jobs in the harbor.

Shell has now submitted a new proposal to build the
plant in Moss Morran on the Firth of Forth estuary opposite,"
Edinburgh. The new location is probably preferable to the
Peterhead site in terms of being able to absorb the plant
and tanker-related traffic and impacts. Certainly the
additional traffic generated by the new Shell plant would
constitute only a small increment to existing traffic on the
Firth of Forth in contrast to the same impacts that this
would generate in Peterhead Harbor where there are no tankers
at all. A public hearing on the Moss Morran-Edinburgh site
was held by the Secretary of State for Energy for Scotland
and approval issued in March 1978. Shell is building a
liquid gas pipeline from St. Fergusto Moss Morran. This
will bring the number of onshore subterranean pipelines
between St. Fergus and the Edinburgh area to five. (These
include the three gas lines at St. Fergus which hook up to
the British Gas grid, BP's oil line between Cruden Bay and
Grangemouth and the Shell line under discussion.) This
.number could increase to six should British Gas decide it
needs another pipeline to transport fuel from a gas gathering
system currentlyIunder study. More subterranean pipelines
in this region may not be permitted in the future, however,
since the easements acquired from the farmers for maintenance
could mean a reduction of land devoted to agricultural use.

Whil-e Peterhead has been spared for1riow from the impacts
resulting from the.building of two chemical plants, the
pressure from the petrochemical industry to locate close to
the St. Fergus plant should not be overlooked.

Government and business interests in other areas of
Scotland have been trying to attract processing i kndustries
because of the growth potential believed to be associated
with them. The Cromarty Firth region which already contains
two platform yards, a pipe coating yard, a gin distillary
and an aluminum smelter is seeking to attract still more oil
and gas facilities. The Highland Regional Council, for

-31-

example, is trying to promote approval of a proposal to
build a grass roots refinery whose products would be exported
to Europe and possibly the United States. The refinery
proposal has the tacit backing of the Brown and Root platform
yard in Nigg Bay. Brown and Root sees the refinery as
adding diversity to the local economy from which it would
benefit in that it believes workers would have increased job
opportunities when laid off between platform orders. This
seems to be a false assumption, however, since refineries
are capital-intensive and employ relatively few people after
the construction phase.

The exp ansion project mentioned above concerns.the
addition of an alkyla@ion plant at British Petroleum's
Grangemouth refinery. B.P. already expanded facilities at
the refinery recently to build a gas separation plant at an
adjacent site it owns to stabilize the Forties crude.

BP is also planning to reverse the flow of one pipeline
that had been used until the advent of North Sea oil to
import crude into the refinery. The oil in the "reverse
flow" pipeline will now be exported from BP's Finnart
terminal on the west coast and will provide,BP with two
outlets for its Forties production by 1980."'

Implications of Downstream Processing Plants for Mid-Atlantic
Frontier States

The decision to build a refinery is not one that is
taken lightly because of the costs involved. New Jersey,
Pennsylvania and Delaware between them contain nine major
refineries. With the proximity of the Mid-Atlantic refineries
to the Baltimore Canyon and the Georges Bank and the absence
of a refinery in-New England, it seems all but inevitable
that these states will be impacted by downstream processing
activity. These states, however, unlike Scotland, have
serious air pollution problems and may have a greater
problem in absorbing emissions from oil and gas plants. Air
pollution is certain to become more and more of an issue as
the industrial states bordering the Atlantic Ocean become
the focus of scrutiny because of the high incidence of
cancer found there4 believed in part to be related to
industrialization.

While new oil, if it substitutes for imported oil, will
probably be refined in existing refineries and would not
result in new emissions, gas, if found, would require the
building of several processing plants which would most
certainly add to existing emissions. Gas plants while
smaller in size than refineries, perform the same functions

-32-

as refineries in removing impurities and by-products from
the raw material. In addition, they have some of the same
impacts such as noise, odor, 24 hours-a-day lighting and air
emissions. To date the industry has not indicated to the
Mid-Atlantic states what production facilities will be
needed except to rule out new refineries At the same time
state governments have not addressed in ;etail how they will
review proposals for potential downstream facilities in
terms of what may or may not be acceptable from an environmental
carrying capacity viewpoint although they do have, of course,
existing authorities and procedures for reviewing any facilities
with the potential to release air pollutants.. The upward
revision by the U. S. Geological Survey of the gas estimated
to be found in Lease Sale 40 from between 2.6 and 9.4 trillion
cubic feet to 13.3 tcf, indicates that gas plant planning
could have significant implications for the.maintenance of
air quality, especially if it turned out that the gas were
to have a high sulfur.content.

-33-

Footnotes

Petrochemicals in Western Europe: The Potential
for North Sea Oil and Gas, The Scottish Council
(Development and Industry), May 1977. The Scottish
Council estimated exports in the 1980's of 60-70
million tons/annum of crude oil, 1.9-2.0 billion
cubic feet of natural gas, 2-3 million tons/annum
of gas liquids, 1-2 million tons/annum of petrochemical
feedstocks.
2Scottish Economic Planning Department.
"North Sea Information Sheet: November 1977," p.5.

P* 3.
4
See Mason, Thomas, J., McKay, Frank W. et al., Atlas
for Cancer Mortality (1950-1969) , DHEW Publication
#(NIH)75-780, Washington, D.C.:U.S. Government
Printing Office. p. x and Council on Environmental
Quality, Carcinogens in the Environment, (Washington,
D.C.: U.S. Government Printing Office 1975, p. 23),
and New York Times, nLatest Data Show Jersey 3rd in
Cancer," May 2nd, 1978, p. 28.

-34-

VI. PLANNING BY LOCAL GOVERNMENT

Thus far this report has dwelled on the pace with which
,development has taken place in Scotland from the moment of
discovery to the building of platforms, drilling of development
wells and landing the hydrocarbons at a refinery or terminal.
This chapter and the next look at how planners have attempted
to deal with the fast pace set by industry. This chapter
looks at how local government - the Shetland Island Council
is handling oil and gas activity which has located there
because of its proximity to the rich oil and gas fields off
its shores. The next chapter looks at how the British
government facilitated the development of oil and gas
production by invoking a national interest in energy.

.The story of how the local government in the Shetland
Islands seized the initiative in dealing with industry to
ensure that oil would not disrupt the island environment and
way of life has been well documented by the Baldwins and
others Here the writer attempts to assess how effective
such planning was in retrospect.

Generally, the early planning by the Shetland Island
Council paid off. The Council is, however, the first to
admit where it fell short of its goals. These shortcomings
may be attributed to the Council's lack of technical expertise
and to its having accepted so-called "facts" at face7value
without having performed its own independent analyses. Some
of the Council's less successful experiences are outlined
below to point out the gullibility of even such a sophisticated
entity as the Shetland Island Council.in relying on industry
in the absence of other information.

Technical Expertise:. Industry versus the Government

One dispute between the Council and the industry,
concerned the designation of pipeline,,,corridors. Initially,
the Council had requested in its plan that any needed pipelines
would have to come ashore at one pre-designated site. The
second pipeline which was built, however, comes ashore
several miles south of the first one. It was sited there
because of seabed'conditions which made.the placement of
more than one pipeline in the initial pipeline corridor
infeasible. The Council was not informed of this until the
time came for the second line to be laid. Considerable
friction them ensued between the government and the industry
which could have been avoided had the industry been more
open with the Council.

-35-

Another dispute between the Council and the industry
concerned the layout and design of the facilities at the
Sullom Voe terminal whose construction generated major
environmental impacts including dredging and the filling-in
of water inlets to accommodate the dredge spoils. One minor
issue in the dispute revolved around the siting of storage
tanks which is outlined briefly here to illustrate the
importance that governmental units anticipating development
should attach to performing their own independent impact
analysis.

In this instance the industry advocated surface placement
and the Council subterranean placement of the storage tanks.
While the industry position prevailed ultimately on technical
grounds with the Council conceding that the siting of tanks
in terrace fashion, which eliminated the need for tall
venting stacks and a potential eyesore, was preferable to
its original proposal, it is possible that the dispute and
bitterness generated thereby could have been entirely avoided
by greater openness between the Council and the industry
initially. Possibly, also, such a dispute might not have
arisen in the United States because of the environmental
review process mandated by the U. S. National Environmental
Policy Act of 1969 which requires the various advantages and
disadvantages and alternatives of a project to be presented
for public review. Be that as it may, the incident illustrates
the real need for a local unit of government, whether or not
an environmental impact statement is needed, to'perform
independent analyses of projects having a potential for
impacting the environment.

Work Force Estimates

An error of the Council was to take on trust the labor
force figures whIch the industry supplied on the construction
of the terminal.

From the point of view of planning and accountability,
this was probably the Council's.biggest mistake because of
the adverse impacts that this might have had, if not remedied,
on the surrounding@community. Initially, in 1973-1974 the
labor force for the Sullom Voe Terminal had been estimated
to be about 1200 workers. To accommodate this population
the Council required a tem3orary worker camp to be built
before construction began. In 1976 the industry increased
its work force estimates to 3,000 people. To avoid overcrowding
and overburdening local facilities, the Council required a
second camp to bi built before permitting work to continue
at the terminal.

-36-

Faulty estimates of the work force and inadequate
accommodations to house it probably contributed to delays'in
the building of the terminal, now anticipated to start
partial operations in 1978. other costs, however, such as
those relating to design and inflation, have also contributed
to delays in completion of the terminal. The Council's
condition that worker accommodations be completed prior to
construction start-up was intended to avoid the type of
problems which occurred at the platform yard in Nigg Bay
where no provisions had been made for an influx of 3,000
workers during the peak construction phase. At Nigg Bay the,..
platform company had to charter two passenger liners to
serve as a work camp - a far from satisfactory arrangement
in view of the closeness of living and sleeping quarters and
the disruption that different work schedules inflicted on@
the sleep cycles of the workers.

Many of the problems outlined above related to the
Council's relative lack of ex pertise vis a vis industry.
They could have been averted.if there had- been better
understanding and information exchange between industry and
the Council. The experiences have made the Council all the
more determined to require a disclosure of industry plans.
These difficulties notwithstanding, the Council and industry
have worked out a better cooperative relationship on offshore
oil and gas-related matters than exists elsewhere between
these two interests. In the absence of the formal government
and industry task force which the Council had establi-shed
early in the planning process to facilitate communications,
the Shet1anders might have been even worse off today than
they are.

Overall, the Council's experience with industry indicated
that both found more to be gained through cooperation -which
increased the element of.,c,ertainty and predictability in,.
decision-making than in feuding which resulted'in lloss of
valuable time.

Inflation

Despite its best efforts the Council has not been able
to deal with the inflation of prices and.the flight of the
local labor force into higher paying oil and gas jobs.
Disturbing the Council is the migration of some young fishermen
to the oil and gas industry which if it were to set a trend
could result in the diminution of the fishing industry where
skills are passed on from father to son over a long period
of time. The Council is also concerned that short-term,
high paying oil and gas-related jobs are luring young people
away from pursuing high educational goals. Its main worry
is that the oil and gas industry will reduce the diversity

-37-

of activities and jobs in the Shetlands and narrow a "four-
footed" economy built on knitting, fishing, tourism, and
agriculture to a "one-footed" oil based economy. As the
Director of Planning put it, "a four-footed stool can balance
itself; not so, a one Poted stool ... and what happens when
there is no more oil?" Already he reported that unemployment
was higher in 1977 than it was in 1971 because of laid off
workers from oil-related jobs staying on in the Shetlands.

Cumulative Impacts

OCS planning is so difficult because no one knows until
exploration actually begins, whether the educated guesses
which have been made will be borne out. once a field has
been discovered the practice both in Britain and the United
States allows the resources to be produced as rapidly as
possible and for facilities - both onshore and offshore - to
be put in place. Seldom are facilities designed for downstream
discoveries because of uncertainty as to whether the initial
find will be followed up by another. This type of incremental
building makes for industrial sprawl which planners would,
of courset like to avoid especially in coastal areas where
the competition for land is already so intense. Although
the north-and-mid-Altantic states have urged Congress to
separate exploration'from development so that comprehensive
planning can take place, the likelihood of this happening
appears gim because it is viewed as 'delaying the recovery
process'. New regulations promulgated by the U. S. Geological
Survey would require it to perform an environmental impact
statement (EIS) on exploration plans which could have major
implications during the development phase. The regulations
are new and it is not clear the extent to which a whole area
would be analyzed or whether drilling would be held up
pending the completion of the EIS. There is no guarantee
that following the filing of an EIS that other discoveries
might not be mgde which could change the development picture
still further.

With planning for OCS onshore impacts being so difficult
because of the uneven sequence of discovery, it becomes all
the rhore important for OCS planners to know as much as
possible about industry practices so that at least some of
the cumulative impacts and economies of scale can be factored
into the OCS planning. This relates especially to the
acquisition of land for pipeline corridors and onshore
landfalls and facilities such as gas processing plants. In
the North Sea, as discussed in Chapter IV, several pipelines
have already been built in the short span of ten years and
more are expected to be built. At St. Fergus, the British
Gas Corporation has, however, provided extra land for a

-38-

third pipeline landfall. On land it is somewhat easier for
planners to require companies to acquire additional acreage
for expansion if necessary. At Sullom Voe in the Shetlands
space has been set aside for a refinery should one ever be
needed. Planners should, therefore, be aware of this problem
and try, to the extent possible, to require that extra land
be acquired in conjunction with a new facility so it will be
available for expansion if necessary. In this way a new-and
undeveloped area may be saved from disturbance lateron.

Compensation

The Shetland Island Council is probably better equipped
through its Reserve Fund to mitigate against impacts than
other local governments. The Reserve Fund, established by
the Zetland County Council Act of 1974, is funded by the
industry. The fund is intended to compensate Shetlanders
now, during the,disruptive construction phase and in the
future when adverse impacts are expected from the phasing
out of oil and gas production. Shetlanders call it a
"disturbance fund." Its intent and purpose is the same in
many respects to that of the Coastal Energy Impact Program
(CEIP) approved by the U.S. Congress as part of the Coastal
Zone Management Act Amendments of 1976 although the funding
formula and eligiblity are vastly different. (CEIP, for
example, provides relatively little money for outright
grants, but advances credit assistance to governmental units
for facilities requring "front-end" financing until they
become self-sustaining).a The formula by which monies are
collected in the Shetlands has never been made public but is
based in part on number of pipelines, amount of oil flow,
and the percentage of money that the Council has invested in
oil and gas related facilities. (The CEIP formula is based
on acres leased, oil and gas landings, production and new
employees). While no drop of oil haslanded in the Shetlands
yet, the fund has been collecting money,for,three years with
some of the interest distributed by social service agencies
to the elderly and others including fishermen and pre-
existing and new@industries in need of financial help. The
rationale for activating the fund before oil has been
produced is that Shetlanders are already experiencing
significant impacts from anticipated development.

Advisory Groups and their Role

A general criticism directed by planners at the oil
industry has been its secretiveness with respect to disclosing
specific information on the number, type and location of
onshore facilities needed to process the offshore resources.
Usually the practice has been for industry to obtain sites
and then disclose its plans. This has made the work of
planners trying to promote orderly land use development that

-39-

much more difficult. The Shetland Island Council had been
very bitter about the industry's close-mouthed behavior, and
determined to maximize communications with the industry on
oil and gas-related matters.

In 1973 the Council established the Sullom Voe Association,
consisting of representatives of the industry and the Council,
as a forum for the transfer of information and industry
expertise.. Later the Association established an environmental
advisory task force to assess the impacts resulting.from the
building of the Sullom Voe terminal. This task force which
produced a number of recommendations on oil spill contingency
planning, firefighting, safety, and moni @oring disbanded
shortly before publication of its report because of concern
that environmental issues were1@eing manipulated to the
advantage of the oil industry.

The Shetland Island Council appears to believe that it
is better to have a forum for discussion then none at all
however, and has been instrumental in organizing a successor
to the environmental task force. The new 15 member entity
(the Shetland Oil Terminal Environmental Advisory Group
(SOTEAGI) is made up of two representatives each from the
Council and industry, as well as representatives from the
national (equivalent to our federal) government having
statutory environmental protection responsibilities. Also
included are representatives from universities and.local
fishermen's and birdwatchers' associations. By-laws of
SOTEAG preclude either Council or industry representatives
from serving in any managerial.capacity on the task force
and require any minority viewpoints to accompany a main
report.

Planning: Public Participation

It should in all fairness be pointed out that it is
only in retrospect that the Shetland Island Council's activities
have been regarded in such an idealized light by its own
constituency, although planners from other parts of Britain
and abroad have ad-mired its initiative, vision and actions
throughout. At the beginning when the Council went to
Parliament to obtain its unusual land use powers, it was
looked upon suspiciously because of the secrecy it maintained
in lobbying for these powers. This continued later on when
the Council would conduct long and secret negotiations with
the industry. Such concentration of power in the Council
did not sit well with many of the independent-spirited
Shetlanders accustomed to New England, town-hall-style
decision-making although later on their criticism became
more muted as the Council acquired their trust. What line

-40-

to draw between the delegation of power to one's government
and retention of the right to know remains tenuous, especially
when values one holds dear are at stake. On the surface it
appears that the Shetlanders did well by their Council
although some terms of the negotiations remain undisclosed
to this day.

Summary

In the Shetlands as elsewhere planners regarded the
development of offshore oil and gas as too important to be
left solely to the industry and initiated a number of ways
to maximize on benefits deriving from the new activity. At
the same time they took steps to protect their island's
environment and way of life.. While the Shetland Island
Council failed in some areas to retain its early initiative
in negotiating with the industry because of its lack of
technical expertise, its successes have been overriding
stemming in large part from the speed with which it acted
when it first learned of the potential role that oil and gas
adjacent to its shores might play on the island. Further it
demonstrated a willingness to work with and overcome its
difficulties with the industry having accepted as a given
the different constituency to which the industry was accountable.

The Council also early on recognized the importance of
oil and gas to the national economy and that failure to take
.it sufficiently into account might result in central government
actions which might be contrary to its people's way of life
and even cost them some of their independence. Accordingly,.
it reconciled the inevitability of oil and gas to its shores
with its value system. This coming to terms with the situation
resulted in few, if any, conflicts with the national government.

-41-

Footnotes

ISee Footnotes 3 and 4 in Chapter 1, Introduction.
See also, Scotland Oil, Edited by A. MacGregor
Hutcheson and Alexander Hoff, (Edinburgh: Oliver
and Boyd, 1975) and The Shetland Way of Oil,
Edited by John Button (Shetland: Thuleprint Ltd.,
1975).

The Shetland Island Council acquired powers through
the Zetland County Council Act of 1974 to acquire land
around Sullom Voe, future site of the oil terminal,
which it later leased back to some of the oil
companies, obtaining rental income therefrom. In
addition, it acquired "port-authority" powers in
order to better control and tax traffic in and out
of the harbor terminal. At the same time it obtained
the authority to participate in commercial ventures
in order to assure that the local citizenry rather
than outsiders benefit from new oil-related jobs.
The Council is currently a partner in the company
which is building the construction camp at Sullom
Voe and in the company which will tow and pilot
tankers in and out of the harbor.
2The Sullom Voe Terminal is bein g built to handle
a@throughput of two million barrels a day of oil
by the mid-1980's. The terminal will consist of
fifteen crude oil and four liquid petroleum storage
tanks, a gas separation plant, ballast tanks, a
settling pond and a 96 Megawatt (MW) power plant.
(The island's power needs by contrast are met by a 28
MW plant). While the terminal is being built by the
industry, the harbor and jetty portion is being built
by the Council who will lease it back to the industry.
3In addition, the Council proposed that the housing
stock of nearby villages be expanded to accommodate
oil and gas personnel expected to remain in the
Shetlands for the duration of the oil boom, estimated
to be 20 to 25 years. Dispersal of this incoming
"permanent" population among several villages by the
Council was preferred over the building of a "new
town" in order to facilitate the acculturation of
the newcomers and to distribute any benefits that
might come from building new homes and facilities
among the existing population.

-42-

4Except for the community facilities such as a gym,
pool, movie, the work camps will be taken down after
the work on the terminal has been completed.
5Mr. J. M. Fenwick, Director of Planning, Shetland
Island Council, in an interview, May 13, 1977.
6The Congress is currently (as of May 1978) considering
amendments to the 1953 outer Continental Shelf Land
Act (67 Stat 463) (43 USC 1338F). The Amendments
are contained in Senate Bill #9 and House bill #1614.
7Department of the Interior, U. S. Geological Survey,
"Outer Continental Shelf Oil and Gas Sulphur operations;
and Oil and Gas Information Program," Federal Register,
January 27, 1978, p. 8880, et. seq.

8
See Department of Commerce, National Oceanic and
Atmospheric Administration, "Coastal Energy Impact
Program", 43 Federal Register, February 23, 1978,
p. 7546, et. seq.'
9The Sullom Voe Environmental Advisory Group, Oil at
Sullom Voe Environmental Impact Assessment, (Shetland:
Thuleprint Ltd., May 1976). Note that there is no
British counterpart to the U. S. National Environmental
Policy Act of 1969 (42 USC 4371) and its environmental
impact statement requirements.
10 Personal Communication from J. M. Fenwick, April 24,
1978.

-43-

VII. PLANNING BY BRITAIN'S NATIONAL GOVERNMENT

The last chapter described the approach of the.Shetland
Island Council -- a local government unit -- to planning for
oil and gas development. This chapter briefly describes how
the British government is accelerating oil and gas-related
developmentbecause of its importance to the national economy
in terms of reducing the balance of payment deficit.

Various measures have been taken by the British government
to accelerate oil and gas production as being in the national
interest. Workers waiting to obtain government-subsidized
housing, for example, are put on the top of a waiting list
if they are working on a project considered as being in the
"national interest." In order to obtain maximum benefits
from offshore drilling, the British government established a
Manpower Services Commission to train people in new skills.
It also established an Offshore Supplies Office to help
foreign oil companies identify and obtain help and services
from British companies. In addition, the Department of
Energy uses its authority in issuing exploration and development
licenses to exert leverage on oil and gas companies, giving
preference to companies which place orders with British
rather than foreign companies. Leverage is also used by the
government-owned British National Oil Corporation, established
in 1976, to acquire a 51 percent interest in all oil and gas
operations operating in Britain. Amoco, a holdout to this
procedure, did not receive a lea 'se during the last licensing
round until it had acquiesced in BNOC's participation.

The British government has also used its national
interest powers to acquire information and in the siting
process as discussed below.

The British National Oil Corporation (BNOC)

The problem of access to industry information appears
as one common to both local and national governments. While
the Shetlanders partially resolved this through the advisory
task force approach, the British government formed the
British National Oil Corporation (BNOC). The three objectives
for forming BNOC cited in a recent Congressional report
were:

1. Participation as a way to increase the public
share of North Sea oil wealth,

2. Participation as a way to improve the Government's
oil information; and,

3. Participation as a way to enhance Government
control over North Sea development and disposal.

-44-

Interestingly,the latter two objectives related to
information access.

Siting - The Public Hearing Process

In Britain, as in the United'States, local governments
exert considerable power with respect to land use. But
regarding the siting of facilities having a national or
"greater than local interest", such as energy, the Secretaries
of State for Scotland and for the Environment in England
may, if they choose, intervene in the local siting process
by convening a public hearing to consider a pending proposal.
Such hearing is then presided over by a state-appointed
hearing officer who will submit his findings and recommenda-
tions to the Secretaries. Although it is not a foregone
conclusion that.they'will always approve every site reviewed
at a state-called public hearing, there is a strong presumption
.that they will favor national interests over local concerns.
While they took no part, for example, in the decision'to
turn down Shell's proposal to build a petrochemical plant in
Peterhead, which was opposed locally, the Scottish Secretary
did call for a hearing on the alternate site in Moss Morran
which is possibly a more acceptable site because of its
proximity to an urban labor force and infrastructure.

Siting - Planning Guidelines

The siting of onshore oil and gas facilities related to
offshore drilling has been facilitated in Scotland by the
Scottish Development Department which in 1974 inventoried
the Scottish coast for potential development sites for gas
and oil facilities to guide both local government and prospective
developers to such needed sites. Sites were mapped and
criteria developed which favored the clustering of facilities
and'the use of 2ites close to existing labor pools and
infrastructure. While the Development Department obviously,
wanted planners to follow the guidelines, it made clear that:
the guidelines,did not have the force of law and were not
intended necessarily to override existing development plans
of local governmbnt units. Notwithstanding such disclaimers,
the guidelines issued by the highest level of government,
have undoubtedly influenced.developers to locate in the
government-recommended areas.

Comment

The "national interest" clauie.in the Coastal Zone
Management Act Amendments of 1976 is one by which Congress
sought to have coastal states consider the siting of energy
facilities in their coastal zone. While the British government
seems to intervene quite successfully at the local level to
obtain consent for the building of energy facilities in the

-45-

name of the national interest, it remains a question still
whether local governments in the United States will acquiesce
quite that easily to being overridden by higher governmental
units without additional state enabling legislation. The
petroleum industry, however, is seeking a strict interpretation
of the "national interest" both as enunciated in the Act as
well as in Fedeial regulations which spell this out in
greater detail.

-46-

Footnotes

U. S. Congress Senate. Committee on Energy and
Natural Resources. Controlling oil: British Oil
Policy and the British National Oil Corporation
Edward N. Krapels, Publication 95-59 (Washington,
D.C.: U. S. Government Printing Office: October
1977) p. 20-23.
2Scottish Development Department, North Sea Oil and
Gas Coastal Plannin2 Guidelines, August 1974.
The coast was classified into "preferred development"
and "preferred conservation" zones. The@guidelines
spelled out the criteria used to identify development
zones, They included:

a) avoidance of a scatter of industrial development

b) full use of ,existing labor pools, housing and
public services

c) economic provision of additional services

d) possibility of diversification to cushion any
subsequent decline

at p. 6.
3Coastal.Zone Management Act Amendments of 1976
(P.L. 94-370)
4See memorandum of points and authorities in support
of motion for preliminary injunction in American
Petroleum Institute vs. Robert W. Knecht (-U S.
Department of Commerce) filed in United States
District Court Central District of California
#773375 ALS,(1977).

-47-

VIII. CONCLUSIONS AND RECOMMENDATIONS TO OCS PLANNERS

The pace with which oil and gas from the North Sea has
been produced has been rapid, as documented, averaging 4.4
years between discovery and first production or 5.4 years if
one compares this with American practices.* This is shorter
than the eight years which industry representatives usually
cite for start-up of production following a successful find
in the United States.

Whether the time period is 4.4, 5.4 years or even 8
years, however, it is short in view of the long term planning,
siting, and construction decisions which have to be made
during this time. Frontier states need time, for example,
to gain an understanding of the workings of this new industry
as well as the economic, social and environmental and siting
implications thereof. Not least they need to assemble a
competent staff to handle and monitor the new activity, and
establish an organizational structure to do this if necessary.
The period is, namely, not one of planning alone, but one of
building and installing platforms, pipelines and pumping
stations to recover initial production. Beyond these
considerations, planners need to ensure that facilities
built to recover hydrocarbons do not leave irreversible
scars in the ocean or on the land once oil and gas have been
extracted and producers abandon the region. This leaves
precious little time to evaluate alternatives later on when
the pressure to bring the resource to production is intense.

When the oil and gas industry ventured into the Gulf of
Mexico in the 1950's, it proceeded first into state waters
and only much later into federal waters. Few regulations
existed and there was little contact between the industry
and local communities. The accelerated search for offshore
oil and gas in frontier states and a previously unknown
environmental activism have, however, spurred states potentially
affected by OCS.development in the 1970's with a demand for
greater participation in the OCS leasing and development
program. At the same time these states have called fo
reforms of the 1�53 Outer Continental Shelf Lands Act.
'Amendments to that Act are now awaiting action by a Conference
Committee in the U. S. Congress. If passed, as expected in
1978, they would provide states with a greater participatory
role in the initial selection of tracts,for leasing, review

*In Britain the time for an oil/gas field to be brought@into
production is measured from the time a field has been
discovered, while in the United States this period is
measured from the time of a lease sale. It, is assumed here
that a discovery will be made within one year of a lease
sale.

-48-

of lease stipulations and operating orders, review of industry
exploration and development plans, environmental baseline
and monitoring studies and provide them with funds, such as
the CEIP mentioned previously, to carry out these and other
functions. Thus such states may be in a better position in
the future to handle planning related related to offshore
oil and gas production than previously. This does not,
however, obviate the need for early planning, acquisition of
competent personnel and inventorying of suitable sites for
development described in this report.

Below are some recommendations directed to planners in
frontier states who may be anticipating drilling off their
shore. It should be recognized that they are based on
observations and interviews conducted in Scotland and should
not be regarded aslexhaustive. Also public agencies at the
state and local levels in American frontier states including
New Jersey have been carrying out m 'any of these recommendations
since the Department of the Interior accelerated its leasing
program in 1973. Coastal planning under the federal Coastal
Zone Management Act o f 1972 and the' 1976 Amendments provided
the impetus and financial support for the considerable OCS
planning that has taken place in the United States.

Prior to Exploration

1. State and local governments should start as soon as
possible to:

a) learn about the oil and gas industry;

b) acquire competent personnel (including some people
recruited from the oil and gas industry) to develop
an understanding of the industry they may be
dealing with for the next 20-30 years;

c) Visit states where development has taken place.

2. Establish ah organizational unit to handle, monitor and
coordinate this new activity with other units of government
which could be affected.

3. Identify objectives as to how and where development
should take place and set minimum standards. Inventory
the land; determine to what extent industry facilities
should be clustered or consolidated, for example.
Identify areas suitable for development and those which
are environmentally sensitive. Determine measures
which should be taken.to protect areas of environmental
concern.

-49-

4. Ensure that the regulatory authority exists to permit
or restrict development, to grant rights-of-way, etc.
Amend regulatory authority where it is deficient.

5. Identify problems (potential air, water, land use
disposal, adequacy of sites, etc.) that can be foreseen
arising from new industry location. Assess the extent
to which potential problems may be mitigated. Undertake
initial impact studies.

6. obtain funding for planning studies.

7. Review existing applicable legislation and administrative
procedures to ensure that the state's objectives are
met. Where gaps exist, work with relevant administrative
units to obtain reforms.

8. Establish task force consisting of representatives of
oil.industry, labor, environment, universities, federal,
state and local governments to obtain information and
.serve as trouble shooting organization and clearinghouse
of information. The success of such task force and the
acceptability of its findings will depend on its membership.
Member selection should strive to achieve a-balance of
views and skills. The Bureau of Land Management is
currently organizing a national intergovernmental
program including industry representatives to select
mutually agreeable transportation rout2s from offshore
to onshore in the various lease areas.

9. Begin program of public education. Include other units
in government, legislature, universities and the public.
It takes months, if not years, sometimes for a new
activity to obtain acceptance. Produce a guide for
local officials and planners outlining the types of 3
impacts they should anticipate from OCS-related activites.
Include a section for developers as to the types of
procedures they will be required to follow to obtain
permits.

10. Seek information on training opportunities for local
people. To the extent possible, work with industry to
encourage it to offer jobs to local people.

During Exploration and Development

11. Scrutinize industry drilling safety and oil spill
contingency plans. Review industry schedules. Compare
schedules with experience elsewhere.

-50-

12. Don't take anything for granted. Undertake or sponsor
independent checks of data.

13. Ensure that infrastructure exists to accommodate
construction crews building new facilities.

14. In addition to the basic task force (See 8) which
should be meeting regularly, establish additional
groups to monitor both the socio-economic impacts from
offshore drilling (such as jobs, new housing, impacts
on schools) and the physical impacts affecting the
ocean and surrounding land and coastal environment.

15. Consider the cumulative or incremental impacts which
may be generated by several lease sales and require
that companies set'aside additional acreage and/or
capacity for increased production, to the extent
feasible.

During Production

17. Since production may overlap with exploration and
development, continue the actions noted under the
previous section. In addition, keep abreast of pro-
duction rates. Watch for possible fall offs or irregu-
larities in production.

18. Confirm whether'downstream facilities proposed in
previous years are still necessary'based on new infor-
mation or whether new@facilities, not anticipated, will
be heeded because of unexpectedly high production
rates. In the latter case, determine where additional
facilities should go.

19. Monitor impacts of downstream activites.

Shut Down

20. Determine which facilities can be converted to other
uses and those which should be decommissioned for
another use.

21. Consult with industry how best to reabsorb or retain
workers about to be laid off as a result of shut-down.

Footnotes

Some of the provisions of the 1953 Outer Continental
shelf Lands Act (43 usC 1338F) have been incorporated
into administrative (Outer Continental Shelf) operating
orders by the-U. S. Geological Survey of the Department
of the Interior. Funding for OCS planning was started
in 1975 with a $3 million appropriation in supplemental
funds under the Coastal Zone Management Act administered
by the U. S. Department of Commerce.
2See undated monograph by Bert Rodgers, Bernie Hyde
and Tom Burke, U. S. Department of the Interior,
Bureau of Land Management, Role of BLM in Coordination
of Planning For Pipelines on the OCS.
-3 The New England River Basin Commission, Factbook,
November 1976, describing facilities related to offshore
oil and gas development has proved very useful in
providing information to planners. The looseleaf
format of this book allows technical updates (Tech
Updates) to be inserted as and when they become
availalile. The data have been collected with funding
provided by the Resource and Land Investigations
(RALI) Program of the U.S. Department of the Interior's
Geological Survey.

-52-

ACKNOWLEDGEMENTS

I.would like to thank the Kinne Fellows Memorial Traveling
Scholarship Committee in the De
partment of Architecture and
Urban Planning at Columbia University for making my initial
trip to Scotland and the Shetland Islands in 1975 possible
That trip served as the catalyst for my 1977 follow-up visit
and this report.

Many people contributed to this work.' They included
those in the United States who provided me with contacts in
Britain to start my initial research as well as those, of
cour.se, who consented to be interviIewe.d, most of whom went
far beyond the bounds of duty in extending me their time and
hospitality.

I would also like to thank John Clark of the Conservation
Foundation; David Kinsey, Dr. Glenn Paulson and Dr. Peter
Preuss of the New Jersey Department of Environmental Protection;
Dr. Peter McGovern of the Scottish Development Department;
Mr. J. M. Fenwick, Director of Planning At the Shetland
Island Council; Derrick W. Bennett of the American Littoral
Society; Michael Migel; Dr. William Ritchie of the University
of Aberdeen and 0. J. Shirley of the Shell Oil Company for
reviewing this report and for their suggestions and insights.
Any comments or interpretations given to the events described
in this report are, of course, strictly mine.

I also thank Kenneth Mitchell of Rutgers,University for.
his permission to use Figure 1 in amended form and Marvin
Atwood, Jim Azzinaro and Michael Hochman for.the graphics.

Finally, I would like to thank Debbie Yedesko for her
unfailing patience and efficiency in typing and retyping the
earlier drafts of this report.

-53-

William M. Adams, Scottish Council, Aberdeen

George Brown, Conservation Manager, Eastern Region,
U. S. Geological Survey

John Brown, Highlands and Islands Development Board,
Inverness

R. Burnett, Site Liaison Officer, British Gas Council

Philip Clark, American Petroleum Institute, Washington, D.C.

Robert Covert, Chevron Oil Company, London

J. M. Fenwick, Director of Planning, Shetland Island
Council

J. B. Fleming, Scottish Development Department, Edinburgh

H. R. George, Director of Petroleum Engineering, Department
of Energy, London

Kenneth Humphreys, Information Officer, Highland Fabricators,
Ltd.

C. S. Hunter, Oil Pollution Control Officer, Shetland
Island Council

Charles Lakey, Mobil Oil Corporation, New York

Sandy Livingston, Shell Oil, Aberdeen

John Lutrell, Mobil Oil Company, London

Dr. R. G. McCrone, Scottish Economic Planning Department,
Edinburgh

Dr. Peter McGovern, Scottish Development Department,
Edinburgh

Peter Malcolmson, Shetland Island Council, Lerwick

John Manson, Shetland Island Council, Lerwick

Neil Monroe, British Petroleum, London

Robert Moore, Department of Sociology, University of
Aberdeen

Peter Paige, Shell, U.K., London

Christopher Patey, Mobil Oil, London

Dr. William Ritchie, Department of Geography, Aberdeen

0. J. Shirley, Shell Oil Company, New Orleans, Louisiana

Michael Whitall, British Petroleum, Lerwick

Jonathan Wills, BBC, Lerwick

Philip Wiper, British Petroleum, Lerwick

-54-

BIBLIOGRAPHY

Baldwin,,Pamela L. and Michael F., Onshore Planning for.
offshore oil. Washington, D.C.: Conservation Foundation.
1975.

Button. John, The Shetland Way of Oil. Shetland: Thuleprint
Ltd., 1975.

Council on Environmental Quality, Carcinogens in the Environmentf
(Washington, D.C.: U. S. Government Printing Office
1975)

Department of Energy, Development of the Oil and Gas Resource
in the United Kingdom. London: Her Majesty's
Stationery Office, 1977.

Hutcheson, MacGregor A. and Hoff, Alexander, editors, Scotland
and Oil. Edinburgh: Oliver and Boyd, 1'975..

Mason, Thomas, J., McKay, Frank W. et al., Atlas for Cancer
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