Managing the Construction of the Alaska Highway Gas Pipeline Project

The Alaska Highway Gas Pipeline has been described as the largest privately financed project ever undertaken. The project is indeed large and currently quoted in the media as having a price tag of $21.7 billion. Such figures are unofficial and include the Prudhoe Bay gathering system and processing plant which have been designated by the U.S. Federal Energy Regulatory Commission as the responsibility of the North Slope producers. While large, the project is, however, basically a pipeline of a type common to the North American construction scene. It does have some unique technical aspects in the area of frost heave and pipe metallurgy, but by far the majority of the technical elements of the project embrace well established proven concepts.

Again, while large, the project is not a single monolithic entity, the construction of which will demand superhuman efforts to keep it under control. The overall project breaks down nicely into readily manageable packages which a strong management team with well planned project procedures and responsive, timely information systems can control through to on time, on budget completion.

The companies responsible for and actively directing the construction of the pipeline portions of this major gas transportation system are formed into four groups as shown in Table 1. Northwest Alaskan is sponsored by seven U.S. pipeline companies and Northern Border Pipeline by four U.S. and one Canadian pipeline company.

Overall, then the total project is broken down into four major segments, each handled by a separate project team formed with the expertise needed to handle the characteristics of the particular geographic portion with which they are involved.

The sponsors of the Canadian portion of the Project, Alberta Gas Trunk Line and Westcoast Transmission are large operating companies. At the end of 1979 these companies had combined assets of $4.2 billion (Canadian) and operated 13 129 km of natural gas transmission lines of up to 1 067 mm in diameter. The U.S. pipeline sponsors of the U.S. section, in 1978, the most recent data available, had assets of 18.8 billion U.S. dollars and together they operated 194 407 km of pipelines. All of the experience and capability of these companies is available to the project teams managing the Alaska Highway Pipeline Project.

The Canadian portion of the project, estimated to cost $8.4 billion (Canadian) in escalated dollars is similarly divided into five manageable sized sections. As well the project will be constructed in phases, an early “prebuild” phase to provide an early cash flow through the transportation of surplus Canadian gas available for export and a later mainline phase when the balance of the pipeline to carry Alaska Gas will be constructed. The combined phases will span six years with the complete project in service in late 1985.

A pipeline project like any other major project is comprized of a number of modules. Such modules can be worked on by individual design and construction teams. In the case of a pipeline the modules are the compressor stations and pipeline spread sections. For practical, detailed planning and construction management purposes each of these can be addressed individually. Our project will require 21 compressor stations to be in place by 1985. See Table 2.

Plans for construction of the pipe portion of the line call for the Canadian sections to be built in 36 sections or spreads. See Table 3. In Canada, therefore, the Alaska Highway Pipeline will be constructed of 57 modules, each of a size and scope common to the construction industry in North America.

With construction spread over six years a reasonable loading of the Canadian pipeline construction industry can be achieved. No more than five pipeline spreads are planned to be under way at one time. While the bulk of the compressor stations will be built over the same three year period, the stations will be constructed by relatively small work groups located in several different jurisdictions. This construction plan has been carefully tailored to fit the Canadian construction scene, to maximize the use of Canadian workers and contractors, and to reflect the trades availabilities as they actually are in Western Canada.

The first step then, in managing this major pipeline project, has been to recognize its natural geographical components and construction modules, to focus planning on them and to structure the required management organization and systems around them.

The second step was to select and develop the organization and systems required to effectively manage the project. Because of the large dollar figures involved in the project, because its construction spans six years in a period of inflation and high cost of money, because of the high public profile of the project and because it will be constructed under a unique regulatory framework, practical and timely information, accounting and scheduling systems perhaps not used previously on pipeline projects, will be required.

Information will be required on two levels: a detailed level for the day to day control of project activities by the construction management team, and at a summary level for the executive management of the project, for financing purposes and for regulatory reporting. All information must be captured and processed into usable report form in a timely manner, if it is to be put to effective use to meet the company’s objectives.

Detailed planning for the project has been underway since July, 1977 when the National Energy Board approved the Company’s application to construct on the Alaska Highway route. Currently a team of 350 people based in Calgary is continuing with the work needed for the Prebuild phase with actual construction planned to start this summer. This work force is divided about equally between Foothills (Yukon) and the Alaska Project Division, who are handling the design and construction management of the Prebuild sections in Alberta and Saskatchewan. The smaller southeastern B.C. section is being designed and managed by Alberta Natural Gas.

In preparation for the Prebuild phase, systems development at the summary or project overview level is being carried forward by the Foothills (Yukon) parent company team. At the detailed level, the needed systems have been selected and implemented by the Alaska Project Division of Alberta Gas Trunk Line. Close cooperation by the two teams has ensured that all necessary data can readily be supplied at the system interfaces.

Where possible existing software packages have been selected and purchased to minimize systems development costs and lead time. The purchased packages are installed and brought on line by the combined efforts of the systems staff of Alberta Gas Trunk Line and Foothills (Yukon). To date all computer hardware requirements of the project are being met by the Alberta Gas Trunk Line Amhdahl V 5 installation located in Calgary.

Although the subdivision of the project by section and module makes good sense from a practical management viewpoint, such an approach brings with it a need for close coordination. Close control of the numerous component activities and approvals is most important. A computer based scheduling system has been installed to assist in the control of the many items that need to be tracked and to provide the quick reporting turn around demanded by the project team.

To facilitate construction of the project and ensure that maximum benefits for Canadians are secured, the Canadian government passed the Northern Pipeline Act and established the Northern Pipeline Agency. The Agency administers the Act and the more detailed Terms and Conditions established thereunder. As well, the project is under the watchful eye of the National Energy Board and special senate and House of Commons subcommittees. This unique regulatory...