Gulf Oil Corp. v. Commissioner , 87 T.C. 324 ( 1986 )

*327 After installation, wells were drilled from each of these platforms in the Gulf of Mexico. Set forth below for each self-contained drilling and production platform is the operator, the number of wells drilled, the number of wells producing as of the time of trial, and the type of production from the wells, and certain characteristics of the platform.

*328 The offshore platforms at issue in the Gulf of Mexico are all of one basic type, namely self-contained drilling and production platforms. This differs from the tender platform, which is used for installations closer to shore, and which was used more frequently before the mid-1960's. A tender platform is so-called because it is necessary to anchor a barge or tender alongside the platform during drilling to accommodate and store part of the drill pipe and other material and equipment used in drilling. A self-contained platform is so named because some or all of the drill pipe and other materials and equipment used in drilling can be accommodated and stored on the platform. The self-contained platform was developed to decrease the number of work stoppages due to rough weather that required disconnecting the tender and it is also generally larger and heavier than a tender platform.

Prior to the time of completion of a platform, there are four phases that may be briefly described as follows: (1) The onshore design and construction phase; (2) the loading phase, consisting essentially*74 of the removal of the platform from the shipyard or other site or facility where it was constructed and its preparation for transportation to the desired location; (3) the transportation phase, consisting of the transportation of the platform to the desired location; and (4) the installation phase, consisting of positioning, erecting, and anchoring the platform at the desired location.

Normally, after acquisition of the lease, an exploratory well is drilled, usually by means of a jack-up rig, in order to confirm the economic feasibility of placing a platform on the lease. If the well is a producer, the location for the platform is selected by Gulf or the operator (with the concurrence of the other working interest owners), and the design criteria for the necessary platform are developed.

Each platform is designed and constructed for the conditions at the specific location at which it is to be installed. No two platforms have the same design criteria, although the basic structural design is similar for all self-contained drilling and production platforms. Gulf's design and engineering personnel gather information with respect to the proposed platform site and develop the basic design*75 for each specific platform. They consider soil conditions, storm ratings, water depths, tides, wave forces, and well spacing. *329 These factors affect the number and depth of wells desired, size and configuration of the drilling rig to be used, the loads imposed by the wells and lateral loads, types, strength and thickness of steel, size of members, and type of bracing. They utilize computer-generated design programs. The soil data includes the strength and adhesion characteristics of the soil which determine how deep the piles should and can be driven and the capacity that the pile can accommodate. The meteorological data are based on both normal conditions and the conditions that might be encountered by the platform during the worst storm that could be expected during a 100-year period (otherwise known as a 100-year storm). Water depth is critical in the design process, as are the 100-year storm waves, the current, and the tides. Wave loading affects every member of the structure because of the lateral, or horizontal, stress or load placed on the structure. The location is also important as the soil and water conditions will vary if the site is close to the mouth of*76 a river or, conversely, many miles offshore. For example, at the mouth of the Mississippi, the additional stresses caused by the variations in soil conditions and water depth require the use of skirt piles to protect the main piling from lateral stress. The structure must also be designed to withstand the maximum live drilling loads or movable loads, caused by activity on the platform, as well as the vertical or dead load caused by the mass and weight of the structure. A critical external criteria that must be determined is the function to be served by the platform, i.e., the number of wells to be drilled, the depth to which the wells are to be drilled, the type of drilling, and the method of transporting the hydrocarbons to the shore.

Once the design has been completed, the plans and specifications are prepared, at least partially by computer, and sent out for bid. The successful bidder then constructs the structure under the supervision of Gulf's employees. The process of fabrication or construction and the process of installation are not always done by the same contractor. If not, the completed structure is stored on shore until the barges arrive for the transportation of*77 the platform to the site.

*330 Each of the platforms in the Gulf of Mexico in controversy consisted of three major components which were constructed onshore: (i) The deck, (ii) the jacket, and (iii) the piling. In general terms, the deck section is the portion of the structure that holds the drilling rig, drill pipe, and production equipment; the jacket is the underwater bracing system which is put into the water first; and the pilings are driven through the legs of the jacket to anchor the platform.

A deck section for a basic jacket-type platform in the process of construction, and even after completion and readiness for load-out, hypothetically can be used with a different jacket and at a different location than that originally contemplated, but generally only after structural analysis and expensive modifications. In addition, a partially or fully completed jacket section hypothetically can be modified for use at a different location and with a different deck section than that originally contemplated. All such modifications of either decks or jackets are undertaken only if they are considered to be economically feasible, taking into consideration all of the requisite costs.

*78 During and after the construction process, a platform jacket, subject to economic constraints, can be modified for use in water depths varying by 5 to 10 feet from the depth anticipated in the original design. Only after the jacket has been installed in place, and if the lifting capacity to raise it does not exist, is it no longer subject to such modification. Deck sections can be manufactured or prefabricated in advance of knowing the specific location of installation of the platform, although this was not Gulf's practice. Such a procedure will tend to accelerate drilling projects and reduce "lead time." This is accomplished by designing the platform deck to withstand the most severe requirements that may reasonably be anticipated, which is more expensive than designing each platform to the minimum specifications required by installation in a particular location. In some instances, decisions have been made not to use platform components once constructed. Such components then become surplus and are available for purchase, modification, or other use.

*331 After being constructed onshore, the three major components of each platform in the Gulf of Mexico are loaded on a ship*79 or barge for transportation to the platform location. The barge is towed to the installation site and the jacket is skidded off the barge into the water. The upending procedure consists of controlled flooding of the legs of the jacket, which are steadied by a derrick hook. Once the jacket is sitting on the bottom, it is leveled with the use of surveying instruments and is then ready for driving of the pilings.

Pilings are used to provide structural stability by means of the friction between the piling and the soil. Several pilings are set before the driving process begins. Frequently the piling will penetrate to a depth between 30 and 50 feet as a result of its own weight before being driven. Once set, the piling is driven by a hammer to a specified depth. Sections of piling are then added to the previously driven section. The length of the piling used and the depth to which it is driven are controlled largely by the weight of the hammer used to install it. Petitioner makes allowances for overdriving and underdriving. Underdriving means that the piling can be driven to a lesser depth than it was designed for; overdriving means that the piling can also be driven to a deeper*80 depth than that for which it was designed.

Once the piling is driven to the specified depth, the grouting process begins. Grouting, a specialized form of cement without aggregate, stiffens the structure by filling the gap or annulus between the leg of the jacket and the piling. Structures that are designed to be moved are not grouted. Gulf grouts the legs of all of its self-contained drilling and production platforms.

After installation and leveling of the jacket and completion of the grouting, the deck section is lifted and positioned upon the structure. The deck column has stabbing guides that fit into the top of the piling. The deck is then welded in place. The self-contained drilling and production platform, once installed, begins its productive life.

During the taxable years in issue, petitioner also incurred costs to design and construct five large platforms to be installed on four oil and gas properties located in the North Sea in which it had a working interest. Gulf was a member of the Statfjord Group, consisting of licensees in areas of *332 the North Sea governed by Norway and the United Kingdom and unitized into one operational unit. Mobil was selected as *81 operator for the development of the unitized field. The year placed in service, block location of the platform in the North Sea, identifying number of the platform, and petitioner's share of the working interest were as follows:

Wells were drilled from each of these platforms following installation. Set forth below for each of the platforms, all of which are self-contained drilling and production platforms, is the operator, the number of wells drilled, the number of wells producing as of the time of trial, the type of production from the wells, and certain characteristics of the platform:

*82 The Hutton platform was to be installed in 1984. Once this platform was installed, the operators planned to drill 14 wells, 2 of which will be for oil production, and 12 of which will be for water injection.

The general sequence of events from design through installation is the same for the platforms in the North Sea as for platforms in the Gulf of Mexico: the design and *333 construction phase; the load-out or tie-down phase; the transportation phase; and the installation phase. Differences in design, construction, and installation are caused by constraints imposed by compliance with Government policy and the functional needs to insure economic productionfrom the particular field, as well as physical constraints imposed by the much greater depth of the water and ferocity of the weather.

The design process for the North Sea platforms is far from routine, due both to the physical conditions and to the involvement of not only the various working interest owners, but also the Governments of Norway and the United Kingdom. The physical conditions are far less placid than those in the Gulf of Mexico. For example, the usual design criteria for a 100-year storm in the upper North*83 Sea includes waves from 95 to 100 feet high and winds from 145 to 150 miles per hour. Although the design criteria, plans, and specifications for the plans for each of these platforms were joint efforts of a number of different entities, Gulf participated to the fullest extent possible.

Unlike the platforms in the Gulf of Mexico, the platforms in the North Sea varied in type. The Thistle platform was a steel-jacketed platform of a much larger size than the platforms in the Gulf of Mexico. A second type was the concrete and steel, gravity base structure used for the Dunlin, Statfjord A, and Statfjord B platforms. The final type of platform at issue was the tension leg design used for the Hutton platform.

The design criteria were specific to the soil and environmental conditions expected at each individual site. Furthermore, each platform was specifically designed both for its physical location and for the functions that it was to fulfill in terms of number and depth of wells desired, well spacing, and the size and configuration of the drilling rigs to be used. The platforms are also designed specifically for other characteristics of the oil field at which they are to be installed, *84 for example, the ratios of oil and gas expected upon production.

In the case of the Hutton platform, the technology was a considerable advancement from that used in previous platforms, requiring the participation of Gulf, Conoco, Amoco, *334 and a consortium of other major oil companies. The design was begun in 1979, with construction beginning in 1981. As the plans developed, the original planned design had to be enlarged thereby affecting the size and number of the tethers or anchor lines needed to attach the platform to the sea bottom. The tethers and tension legs are designed for a particular water depth and a particular load. The platform, as constructed, is not as rigidly fixed to the bottom as the Gulf of Mexico platforms, but is designed to "give" or allow the platform to lean slightly with the forces of the waves. The primary benefit of the initial buoyancy of the North Sea platforms, including the Hutton platform, is that they are less expensive than they would otherwise be to move to the installation site and may be easier to remove for disposition upon completion of their useful lives.

The installation process is different for the self-contained platforms in *85 the North Sea than for the installation process for the self-contained drilling and production platforms in the Gulf of Mexico. Because the structures involved are larger than the available barges, flotation is built into the structures so that the deck or module support frame can be floated out to the site as one unit and then flooded and fixed into place by means of multiple piles or tethers. For example, the Thistle platform was installed on top of forty-two 54-inch piles which were driven to a depth of 450 to 470 feet below the surface of the sea bed. The gravity based platform also relies upon the use of concrete to maintain itself in a particular location by the sheer mass and weight of the platform. Such platforms also offer the advantage of additional storage in the hull which is used to store oil for loading onto tankers before the installation of pipelines. The installation of each of these types of platforms: the large steel jacketed platform, the tension leg platform, and the gravity type concrete platform, is a lengthy process involving towing, filling with ballast, assembling, and grouting. Frequently the buoyancy of the platforms is not adequate during towing to*86 transport all of the necessary equipment, thus requiring the use of barges with derricks, and an even lengthier installation period. The platforms in the North Sea are all buoyant to some extent, at least until the ballast system is filled, and are thus *335 generally referred to as floating. The buoyancy makes it possible to readjust the location of the platform slightly so long as the procedure for filling with ballast is still active.

With respect to the platforms in the North Sea, petitioner was unable to identify the portion of its total costs deductible as IDC prior to filing its Federal income tax returns for the taxable years in issue. Therefore, petitioner did not deduct any such costs on its returns as originally filed. Upon audit, petitioner filed claims for refund based upon the deduction of such costs. For the taxable year 1974, petitioner claimed IDC deductions relating to platform costs of $ 3,631,075. For the taxable year 1975, petitioner claimed deductions relating to platform costs of $ 10,558,200.

Offshore platforms, including those designated as "drilling" platforms, are long-lived assets, designed for useful lives in excess of 20 years. The loads placed*87 upon the platforms and the corrosion caused by weather and water eventually destroy the structure. The period during which wells are drilled and prepared for production is usually short relative to the full useful life of the platform. Thereafter, the platform is primarily or solely involved in production for the remainder of its useful life, although from time to time thereafter some reworking of one or more of the wells or the drilling of one or more additional wells occurs. During such activities, production will normally continue as to the other existing wells. In addition, even during the drilling of wells, production will normally commence on the first well while additional wells are being drilled. All of the platforms in controversy in this case were still in place as of the time of trial and, with the exception of the Hutton platform, are actively producing oil or gas. Shortly after installation, each platform has been predominantly or entirely involved in production rather than in drilling and development.

The process of removal of a self-contained grouted platform of the type used by Gulf in the Gulf of Mexico would be a multistep process. All reusable equipment such*88 as crew quarters and drilling and production equipment would be removed from the platform and salvaged. All of the wells but those necessary to supply the power necessary for the *336 removal process would be shut in or plugged and the pipelines would be destroyed. The process of platform construction would then be reversed, with removal of the superstructure first. The piling would then be cut and discarded. Shaped explosive charges can be used to cut pilings at or below the surface of the sea bed. This enables the platform to be removed for disposition, but not necessarily for placement at another site. The grouting would have to be removed, which is a tremendously expensive operation, and is normally done only onshore. Gulf has never removed the grouting from a structure. The jacket, with or without the pilings, would then either be towed away or floated away using floating tanks. Removal does not, however, necessarily mean that the structure could be economically reused or relocated, even if the design criteria at the new location were identical to the original location. Substantial and costly modification would be required. The specific design of the deck and *89 the jacket once constructed for the original installation would preclude economical reuse of these components with new components even if the structures were in good condition. Further, although the technology existed for removal of the platforms during the taxable years at issue, the technology necessary for the reinstallation of these particular platforms was only hypothetical at that time.

Although petitioner has upwards of 423 platforms in the Gulf of Mexico, Gulf has never removed and relocated a self-contained drilling and production platform. Gulf has only removed one self-contained drilling and production platform, the South Pass 61A platform, when it was damaged by Hurricane Camille shortly after its installation. The jacket, piling, and deck were removed, towed to deep water, and sunk. Production from another platform, the South Pass 61B platform, ceased shortly after drilling. Despite study, Gulf has failed to find an economical use for the platform or any of its components, and has determined to solicit bids to scrap it.

Some platforms or parts of platforms of types different from those involved here were removed and reused by others before or during the taxable years*90 at issue. In 1966, Humble moved a tender-type structure approximately 30 *337 miles from the South Pass 36A lease to the West Delta 73 lease. In 1968, Gulf moved a platform from Block 82, Grand Isle, to West Delta Block after substantial modifications. Both locations were in the same depth of water. In 1975, Shell moved a shallow water structure from a 30-foot depth to a 40-foot depth. In 1980, Sun moved a drilling deck approximately 75 miles. In 1982, portions of the Pemex platform in the Gulf of Mexico off Padre Island were removed after a blowout and fire, and reset approximately 700 yards away from its initial site. In each situation described above, an important portion of the structure was replaced in the reinstallation process.

The hypothetical process of removal of platforms in the North Sea is complicated by the complexity of the design. Gulf and the other owners of working interests in the North Sea fields have studied at length the problem of the disposition of the North Sea platforms, as it is both a technological and political problem. Removal will eventually be necessary, however, as international law and the relevant leases require their removal upon obsolescence. *91 The cost of removal for each North Sea platform has been estimated at between $ 200 million and $ 400 million. Even the "floating" platforms are partially grouted in place, which makes them extremely difficult to remove. The process of removal would also require decommission and deactivation of all of the equipment, which would destroy its value for resale, even assuming that the underlying superstructure was still in good condition. The most frequently discussed method of removal is to take sufficient weight off the top, deballast, and pump underneath the platform to make the platform more buoyant, possibly add additional buoyancy tanks, and then tow the platform 300 miles to deep ocean dumping grounds. While the platforms in the North Sea have been described as "floating," their buoyancy is insufficient to allow relocation and is used simply to facilitate the installation and removal process.

The platforms cannot be simply moved to another location and reused because of their site-specific design, technological obsolescence, and damage resulting from corrosion and metal fatigue. Although there has been some discussion in the industry that such platforms might be reusable in*92 *338 another oil field, the platforms, once completed, are specific to the particular site at which installed. The procedures used for a reflotation and removal would effectively cause or complete destruction of the platform and all possibility of reutilizing the platform. The proposals for removal of the North Sea platforms are largely hypothetical as none of the North Sea platforms, as of the time of trial, have been either removed or refloated, much less relocated.

Each of the platforms in controversy, whether installed in the Gulf of Mexico or the North Sea, was designed, constructed, transported, and installed under petitioner's supervision (or the supervision of the operator of the oil and gas property) by independent contractors. With the exception of the Hutton platform, which was not installed as of the time of trial, each of the other platforms in controversy in this case are located at the site at which they were initially installed. Petitioner did not intend to reuse any of the platforms in controversy at any other location nor were any plans formed by which such reuse would be technologically or economically feasible.

The following schedule shows, for each of*93 the self-contained drilling and production platforms in controversy, the type of platform design, the water depth in which the platform was installed, and the weight in tons of the deck section, the jacket section, the pilings, and the total weight.

*339

*94 On July 1, 1982, the Commissioner timely issued a statutory notice of deficiency to petitioner, determining deficiencies in the amounts of $ 80,813,428 for the taxable year 1974, and $ 166,316,320 for the taxable year 1975. The Commissioner disallowed the deductions for "IDC type" costs in respect of offshore drilling and development platforms located in the Gulf of Mexico in the amounts of $ 6,752,598 for the taxable year 1974, and $ 5,459,328 for the taxable year 1975. After concessions and adjustments, the amounts of IDC which are still in dispute for IDC costs with respect to the platforms in the Gulf of Mexico are $ 356,888 for the taxable year 1974, and $ 6,106,547 for the taxable year 1975, divided among the respective platforms as follows:

With respect to the platforms in the North Sea, the Commissioner*95 disallowed 60 percent of the IDC type costs claimed by petitioner in the amounts of $ 2,178,645 for the taxable year 1974, and $ 6,334,920 for the taxable year 1975. The balance of the deductions claimed by petitioner relating *340 to platform costs in each of the 2 taxable years was allowed as a deduction by the Commissioner, and the deduction of such costs is not in controversy.

OPINION