PDV Am., Inc. v. Comm'r ( 2004 )

MEMORANDUM FINDINGS OF FACT AND OPINION

MARVEL, Judge: Respondent determined deficiencies with respect to petitioners' income tax as follows:

Docket No. 12124-02

   Year         Deficiency

   1996         $ 119,774

Docket No. 12125-02

   Year         Deficiency

   1997         $ 218,170

Petitioners timely filed petitions contesting respondent's determinations. Upon motion of the parties, these cases were consolidated for purposes of trial, briefing, and opinion.

After concessions, ^{Rev. Proc. 87-56, 1987-2 C. B. 674, 686, and treated as 5-year property under section 168(e)(1), *116 section 168(e)(1).}

*117              FINDINGS OF FACT

Some of the facts have been stipulated. We incorporate the stipulation of facts and the supplemental stipulation of facts into our findings by this reference.

PDV Holding, Inc., and PDV America, Inc., are Delaware corporations. PDV Holding, Inc., was created in 1997 as the new common parent of the PDV America, Inc., affiliated group. Accordingly, we shall refer to PDV Holding, Inc., and PDV America, Inc., collectively as petitioner.

Petitioner timely filed consolidated Forms 1120, U. S. Corporation Income Tax Return, for the taxable years 1996 and 1997 on behalf of itself and its affiliated corporations. Petitioner's principal office was located in Tulsa, Oklahoma, when it filed the petitions.

In order to move its refined fuel products from the refineries to the ultimate consumer, CITGO maintains an extensive distribution system of pipelines and terminals. *119 B. CITGO's Aboveground Storage Tanks

At its terminals, CITGO uses aboveground storage tanks (tanks) for the storage, marketing, and distribution of petroleum and petroleum products. CITGO owns more than 500 tanks. One hundred and four of those tanks are at issue in this case and vary in size from shell capacities of 7,000 to 194,000 barrels. *120 and gradually thins toward the top, which makes the center point of the tank's total weight lower than half the tank height.

Due to the amount of steel in the tanks' composition, the tanks have considerable weight. For example, a 55,900-barrel tank has a dry weight of 394,000 pounds, and a 151,000-barrel tank exceeds 1 million pounds. Consequently, tanks usually are not tied down to their foundations, and none of CITGO's tanks are.

The purpose of tank foundations is to spread the tank's weight load to help avoid tank settlement and to keep moisture and other corrosive elements from deteriorating the tank's steel structure. Tank foundations may consist of*121 compacted sand or soil, concrete ringwalls, crushed stone ringwalls, or concrete slabs. For sand pad foundations, CITGO replaces the top 3 to 6 inches of the soil with sand or granular backfill. Concrete ringwalls are circular concrete walls from 12 to 18 inches thick that line up with the tank's outer edge. The ringwall is mostly beneath grade and is filled with sand or other material to permit sufficient drainage. Similarly, crushed stone ringwalls are circular gravel rings filled with sand or other drainage material. Concrete slab foundations are more infrequently used and have a thickened edge or reinforced concrete piles on the edge to help bear the weight of the tank.

At the Linden-Tremley*123 terminal, CITGO's contractor, Pitt- Des Moines, Inc., agreed to construct tanks Nos. 501 and 502 *124 annually inspects the tanks' external and internal floating roof seals and, every 10 years, inspects the external and internal floating roof mechanisms. CITGO's tank inspection schedule is also designed to comply with American Petroleum Institute Standard 653, Tank Inspection, Repair, Alteration, and Reconstruction (API Standard 653).

Repairing corroded tank floors may involve patching or replacing the corroded floor plates or completely replacing the tank floor. In some cases, the tanks are lifted off the ground in order to repair the floor underside or to perform foundation repairs. For example, CITGO has lifted tanks Nos. 2 and 3 at the Vestal, New York, terminal in order to perform foundation repairs. When performing foundation repairs, lifting the tank off the ground allows the tank to return to its normal shape. If refined product leakage has occurred, soil remediation may be accomplished by lifting the tank, removing the sand underneath, and replacing the tainted soil with clean soil or, instead of lifting the tank, by cutting out the tank floor in order to reach the soil below it.

In addition to lifting tanks for repair purposes, tanks also are lifted*125 in order to relocate them either within the same terminal or to a different terminal. Tank relocations occur for various reasons, such as returning leased land back to the owner, making room for facility expansions, moving tanks closer to the pumping and loading facility, or moving tanks onto a new site. Tank relocations may involve one or more of the following methods: The hovercraft technology, the Watson Air Bag technology, standard trucks and semitrailers, railway tracks and railway bogies, load skates and steel I beams, truck crawler units powered by hydraulics, helicopters, *126 1. The Hovercraft Technology

The hovercraft technology, or "air lift method", relocates fully assembled storage tanks. A crew of seven people can perform the relocation using this method. First, the tank must be cleaned and disconnected from any gauges and piping, and anchoring devices must be welded to the tank. Second, the site route is prepared to assure that it is level. Next, the crew attaches a flexible skirt to the bottom of the tank. Large diesel-powered air compressors pump air under the tank, lifting the tank off the ground as much as 18 inches. Finally, tractors pull the tank to its new location. Disconnection from the gauges and piping, ground preparation, air lift relocation, and reconnection to the gauges and piping system all can be performed in 1 to 2 weeks.

Although the hovercraft is an effective method for relocating tanks intact, the technology has some limitations. Unless the tank rests on a dry, level foundation, and grade changes do not exceed 2 to 3 percent, the flexible skirt will fold under. Additionally, because three machines hold the tank, the tank shell may be pulled a little out of shape.

2. The Watson Air Bag Technology

Similar to the hovercraft*127 technology, the Watson Air Bag technology relocates tanks intact. The tank lifting equipment is portable and can be carried to the tank site by one worker. In order to keep a tank in service as long as possible, before lifting and moving the tank from its old site, the new foundation is built at the tank's new site.

Briefly, the Watson Air Bag technology relocation procedure involves (1) inflating air bags placed under the tank until the tank reaches the desired elevation; (2) connecting the tank to the preferred method of relocation, such as railway track and bogies or H-beams and load skates; and (3) once at the new site, reversing the process and lowering the tank onto its new foundation. The entire lifting, moving, and lowering process can be completed in 1 week. For a tank with a diameter of 80 feet, a crew of four people can perform the initial lifting process in approximately 8 hours.

When relocating tanks using the Watson Air Bag technology, significant damage to a tank is unlikely. Tanks are lifted between 3 and 5 feet above the ground. Although a section of the tank could fall and hit the ground, any damage from such a fall is repairable. In some cases, the cost to move*128 the tank intact is only 30 percent of the cost to cut the tank down and reconstruct it at the new site.

3. Dismantling and Reconstruction

API Standard 653 provides procedures for dismantling and reconstructing welded tanks for relocation from their original site. When dismantling the tank, API Standard 653 recommends marking the shell, bottom, and roof plates for easy identification. If properly followed, the specifications of API Standard 653 will produce a tank with an "acceptable appearance and structural integrity".

A crew of 8 to 10 people can dismantle and reconstruct a tank. First, cranes hold the steel plates in place as the tank is cut apart with torches or other cutting devices. Then, the crew loads the pieces onto trucks and hauls them. Next, the crew performs beveling work on the plate edges to prepare for welding them back together. Finally, the crew rebuilds the tank using the same procedure as used for new tank construction. See supra p. 7. The cutting and loading jobs can be performed in about 1 week, on top of the 5 to 6 weeks for reconstruction at the new site.

One possible problem when using this method to relocate tanks is that, when a tank is put back together, *129 the steel may not return to its previous shape. In addition, Government-imposed highway weight restrictions may limit the use of this relocation method. For example, the Federal allowable highway weight load is 90,000 pounds, which includes the truck's weight.

4. Other Tank Relocation Issues

In addition to weight restrictions, other highway-related restrictions, including width and height restrictions, may make it difficult to transport tanks, particularly when the tanks are intact. However, because most terminal facilities are located on water or near water, it is possible to move a tank via barge instead. In contrast to highway tank relocations, barge relocations are a much less restrictive method, even though, in some cases, bridges over waterways could create height and width obstacles.

When relocating intact tanks with internal roof support columns, the contractor must install internal bracing to support the floor and the roof. *130 process.

5. Past Relocations of CITGO's Tanks

Since 1993, CITGO has relocated two tanks. *131 CITGO cannot substantiate the amount it paid to Frank W. Hake, Inc., to perform the relocation of tank No. 44 but estimated that the cost was $ 75,000. This estimate does not include any costs related to the preparation of a path for the relocation or the construction of a new concrete ringwall foundation. The relocation itself took approximately 4 hours.

In 1994, CITGO relocated a 30,000-barrel tank from Austin, Texas, to the Vicksburg terminal, a distance of approximately 550 miles. The tank was 40 feet high with a diameter of 73 feet and became known as tank No. 2. Baker Tank Co. performed the relocation using the dismantling and reconstruction method. CITGO relocated the tank in anticipation of closing its Austin terminal due to local opposition to its operation after an environmental problem arose at another oil company's terminal. Three other tanks were sold for scrap.

According to CITGO's contract with Baker Tank Co. for the relocation of Vicksburg tank No. 2, the cost of the relocation was $ 234,856. The price included the installation of a second tank bottom, an internal floating roof, and accessories.

Although CITGO has moved tanks in the past, and Alan R. Watson,

*137 In Whiteco Indus., Inc. v. Commissioner, supra at 672, we did not provide a definition for the term "movement" but concluded that this factor was "clearly" satisfied because the outdoor advertising signs had in fact been moved. As support for our conclusion, we cited Estate of Morgan v. Commissioner, 52 T.C. 478">52 T.C. 478, 483 (1969), affd. per curiam 448 F.2d 1397">448 F.2d 1397 (9th Cir. 1971), a case in which evidence of "movement" included relocations of floating docks to new sites within the same basin, where they remained "part of the same complex of floating docks". See also Scott Paper Co. v. Commissioner, 74 T.C. 137">74 T.C. 137, 144-145, 170-171 (1980) (primary electric components relocated within the same facility treated as movable); Moore v. Commissioner, 58 T.C. 1045">58 T.C. 1045, 1048, 1052 (1972) (mobile homes relocated within the same park treated as movable), affd. per curiam 489 F.2d 285">489 F.2d 285 (5th Cir. 1973).

Even though CITGO has not relocated tanks intact over long distances, the tanks are capable of such movement, contrary to respondent's contention. In his expert report and at trial, Mr. Watson described tank relocations that he has performed*138 with the tanks intact. Mr. Watson testified that he relocated one tank in Alaska a distance of 55 miles and relocated three tanks in New Zealand approximately 200 miles. ^{JFM, Inc. & Subs. v. Commissioner, supra, the gasoline canopies were dismantled before they were relocated.}

Petitioner has demonstrated that the tanks are capable of being moved and have in fact been moved. Consequently, this factor favors petitioner.

B. Is the Property Designed or Constructed To Remain Permanently in Place?

Petitioner contends that the tanks' design and construction demonstrate that the tanks are not to remain permanently in place. According to petitioner, CITGO designed*139 and constructed the tanks in conformity with industry standards, which enables CITGO to dismantle the tanks and reconstruct them at new sites pursuant to API Standard 653 or relocate them intact with the Watson Air Bag technology. Whiteco Indus., Inc. v. Commissioner, 65 T.C. 664">65 T.C. 664 (1975) (outdoor advertising signs); JFM, Inc. & Subs. v. Commissioner, supra *140 (gasoline canopies); and Fox Photo, Inc. v. Commissioner, T.C. Memo. 1990-348 (1-hour photo labs), respondent asserts that the tanks are significantly different for the following reasons: (1) The tanks are massive in size and have economic useful lives of 60 to 70 years, and (2) AFEs for building new tanks at terminals do not reflect an intent to relocate the new tanks at some later date. In addition, respondent argues that the need for internal bracing when relocating intact tanks with internal roof support columns demonstrates that the tanks were designed to remain permanently in place.

In Whiteco Indus., Inc. v. Commissioner, supra at 672, we concluded that the outdoor advertising signs were "not designed or constructed to last permanently." The signs were designed to last only for the duration of the advertising contract, about 5 years, at which time the signs would require "substantial renovation", including a new sign face and various repairs. Id. We did not require the taxpayer to show that the taxpayer actually intended to relocate the property at a later date. Id.; see also JFM, Inc. & Subs. v. Commissioner, T.C. Memo. 1994-239 (same). *141

Although the property at issue in the present case is quite large, for this second Whiteco factor, the focus of our inquiry is on the permanence of the property's design and construction. The property's size is not determinative. See, e.g., Estate of Morgan v. Commissioner, supra at 480 (floating docks at issue had one walkway that was approximately 290 feet long).

We also disagree with respondent's contention that property with a relatively long economic useful life is necessarily designed to remain permanently in place. In Estate of Morgan v. Commissioner, 52 T.C. at 481, 483, where the floating docks had an estimated useful life of 20 years, or longer with periodic part replacements, we concluded that the floating docks were not inherently permanent. Similarly, in Film N' Photos, Inc. v. Commissioner, T.C. Memo. 1978-162, the photo merchandising huts at issue were not inherently permanent, even though they could remain at the same location for 20 years or more and had a useful life of 50 years or more. See also Fox Photo, Inc. v. Commissioner, supra (1-hour photo labs had an estimated useful life of 50 years but were not designed*142 to remain permanently in place).

Respondent further asserts that the internal roof support columns in the tanks reflect permanence. When relocating an intact tank with internal roof support columns, internal bracing is required to support the tank floor and roof. The bracing is not part of the tank's design and must be added to a tank before moving it. However, when using the dismantling and reconstruction procedures for relocating tanks in API Standard 653, the internal bracing is not necessary.

In Fox Photo, Inc. v. Commissioner, supra, the 1-hour photo labs' steel frames were reinforced beyond regular support requirements so that the lab halves could be moved without collapsing. We concluded that the labs were not constructed to remain permanently in place. Id. Fox Photo, Inc. is distinguishable from the present case, however, because CITGO's tanks have no internal superstructure. We cannot agree that, by constructing the tanks without the otherwise structurally unnecessary internal bracing, particularly when the bracing is not needed to relocate tanks pursuant to API Standard 653, petitioner constructed the tanks to remain permanently in place.

When CITGO designs*143 and constructs its tanks, CITGO does so in compliance with API Standard 650. Pursuant to API Standard 653, tanks constructed according to API standards can be dismantled and then reconstructed at a new site. In addition, as Mr. Watson testified, tanks built to API Standards also can be lifted and moved using the Watson Air Bag technology. Clearly, such tanks are not designed or constructed to remain permanently in one place. This factor favors petitioner.

Petitioner concedes that, when CITGO places new tanks in service, CITGO does not intend to move the tanks immediately. However, petitioner contends that it is foreseeable that CITGO may have to move the tanks for maintenance, environmental remediation, or various business or economic reasons. First, petitioner argues that CITGO may need to move a tank by lifting it off the ground in order to repair corrosion of the steel plates on the tank's underside. Petitioner also asserts that the least intrusive method for replacing contaminated sand underneath*144 a tank involves moving the tank, either by suspending the tank in the air or temporarily moving the tank off its foundation, to the side. Furthermore, petitioner argues, possible changes in terminal demand may lead to the sale or closing of terminals or the sale of tanks, scenarios in which it is reasonably likely that CITGO may have to move tanks.

On the other hand, respondent contends that the tanks' ages, their location on fee simple land, and CITGO's attempts to extend their useful lives with extensive maintenance and repairs demonstrate that CITGO intended to keep the tanks in place permanently. Respondent also asserts that CITGO's two prior tank relocations for environmental reasons were unusual occurrences and do not demonstrate "any real likelihood" that CITGO may have to move a tank.

In Whiteco Indus., Inc. v. Commissioner, 65 T.C. at 672, we concluded that the taxpayer "[did] not intend, nor could it realistically expect, the signs to remain permanently in place." We observed that the taxpayer was aware that "numerous situations" could arise which would necessitate moving the signs either before or after the expiration of the taxpayer's contract with advertisers. *145 Id. Examples of such situations included the leased land's owner's refusing to renew the lease, a change in the location of the road, or some other event that would make the sign's position undesirable. Id.

Scott Paper Co. v. Commissioner, 74 T.C. at 172, in which we held that primary electric components were not inherently permanent structures, provides another example of circumstances which tend to show that property may or will have to be moved. In Scott Paper Co., this Court acknowledged that changes in power demands could arise that would require the taxpayer to move the primary electric components and modify them to accommodate those new demands. Id. at 171. Indeed, when such changes in demand had occurred in the past, the taxpayer had relocated components within the facility. Id. at 144-145, 171.

Although some of CITGO's tanks have been in existence for more than 60 years, and, for the most part, the tanks were not situated on leased land, ^{*146 products, it is reasonably likely that an environmental problem may arise, which would require CITGO to move the tanks. In some cases, CITGO may need to move a tank only temporarily in order to replace the contaminated sand underneath the tank. In other cases, however, as the circumstances surrounding CITGO's past tank relocations demonstrate, CITGO may need to permanently remove a tank from one site and place it at a different terminal.}

In addition to environmental reasons for moving tanks, CITGO may need to move tanks within a terminal for economic reasons, such as to make room for*147 terminal expansions, bring tanks closer to pumping and loading facilities, or maximize terminal facilities by joining tank farms together. We disagree with respondent that the maintenance and repair work CITGO has performed on the tanks negate the possibility that the tanks may have to be moved. In order to keep the tanks in compliance with EPA and industry standards, CITGO must perform maintenance and make required repairs. This factor favors petitioner.

D. How Substantial a Job Is Removal of the Property and How Time- Consuming Is It? Is It "Readily Removable"?

According to petitioner, removing the tanks is not a substantial, time-consuming job. Petitioner concedes that removing the tanks is a more "involved" process than removing outdoor advertising signs, 1-hour photo labs, or gasoline canopies but contends that removing the tanks is relatively no more difficult. Respondent disagrees, arguing that the tanks are not readily removable due to the amount of time required to complete the relocation process; the height, weight, and width limitations related to transporting tanks on highways or across waterways; and the complexity of the relocation procedures.

In Whiteco Indus., Inc. v. Commissioner, supra at 673,*148 we described the disassembly and removal of the taxpayer's outdoor advertising signs as a "relatively quick and easy process." Although the record in Whiteco did not indicate the full amount of time required to complete the process, we concluded that, on the basis of the known time and effort involved, the signs were readily removable. Id.; see also Film N' Photos, Inc. v. Commissioner, T.C. Memo. 1978-162 (photo merchandising units could be removed "in a relatively short time").

With respect to the gasoline canopies in JFM, Inc. & Subs. v. Commissioner, T.C. Memo. 1994-239, although we acknowledged that the components were "collectively formidable", we observed that the canopies could be erected or dismantled and moved in a few days. Id.

*149 When relocating tanks intact, in addition to the time required to remove the tanks physically from their original sites, more time may be needed for one or more of the following reasons: (1) Internal bracing must be installed before moving certain tanks intact, which, for a 180-foot diameter tank, requires 4 to 5 days; (2) building a new concrete ringwall foundation takes approximately 1 to 2 weeks; (3) the tanks and/ or the terminals may require certain modifications or repairs before or after installation of the tanks at the new site; and (4) the new site may be several miles away. We disagree with respondent that, in our determination of whether the tanks are readily removable, we should consider the time required for these additional steps.

In Whiteco, JFM, and similar cases, we limited our application of this factor to the job of removing the property from its original site. Indeed, in cases in which we had the opportunity to incorporate the time required for related preparatory work, repair work, or travel, we did not do so. See Standard Oil Co. (Ind.) v. Commissioner, 77 T.C. 349">77 T.C. 349, 372-373, 409 (1981) (excluded travel time when determining whether service station*150 signs and lighting facilities were readily removable); Scott Paper Co. v. Commissioner, supra at 172 (focused on how much time was required to "move" the components rather than how long it would take to make them "operational" at the new site if 2 months of preparatory work had not been performed ahead of time); Fox Photo, Inc. v. Commissioner, T.C. Memo. 1990-348 (excluded the time required to restore the old site to its original condition and to repair and refurbish the 1-hour photo labs for reuse and, instead, focused on time required to remove the labs from their location). Because the consideration of travel time is not appropriate for this factor, we also decline to consider the height, weight, and width restrictions that may arise when transporting the tanks on certain roads or over certain waterways.

The record is not entirely clear with respect to the amount of time required for removal of the tanks using the various tank relocation methods. For example, the 1-to 2-week time estimate for moving tanks with the hovercraft technology includes time spent on work to make the tanks operational at the new site. As demonstrated by CITGO's relocation of East*151 Chicago tank No. 44, however, when the hovercraft technology is properly used, small to medium size tanks can be removed from their original sites in approximately 4 hours, a shorter amount of time than the 2 days required to remove the gasoline canopies in JFM, Inc. & Subs. v. Commissioner, supra, and the 12 to 18 hours required to remove the 1-hour photo labs in Fox Photo, Inc. v. Commissioner, supra. Similarly, for the Watson Air Bag technology, the record indicates that crews will require about 1 week for the entire relocation but is silent as to the amount of time required to remove a tank using that method. The record does show that with the dismantling and reconstruction method described in API Standard 653, a crew can remove the tank in about 1 week.

Although the removal of tanks with these methods has the potential to require more time and larger crews than the removal of other types of property at issue in past cases, we do not think that the time and crew requirements for removing tanks are too substantial. Moreover, petitioner has demonstrated that it is possible to remove tanks in a relatively short amount of time. We also cannot agree with respondent*152 that the complex procedures for removing tanks, which are carried out by professionals familiar with the technology, render the job too substantial.

On the basis of the foregoing, this factor favors petitioner.

In Whiteco Indus., Inc. v. Commissioner, 65 T.C. at 673, we observed that "much" of an outdoor advertising sign was not damaged upon its removal. We also noted that a sign's removal generated no wastage, except for the portion of the poles surrounded by concrete, and, if the sign was removed at the end of an advertising contract, the sign face was replaced. Id.

When we applied this factor in JFM, Inc. & Subs. v. Commissioner, supra, we concluded that occasional damage to the gasoline canopies' side panels upon removal was acceptable because "most of the components [were] reusable." In Film N' Photos, Inc. v. Commissioner, T.C. Memo. 1978-162, we were satisfied that the removal of photo merchandising units and their bases did not cause "significant damage" to the units or to the parking lots on which the units were situated. Additionally, in Fox Photo, Inc. v. Commissioner, supra,*153 damage sustained upon the removal of the 1-hour photo labs was permissible because it was "cheaper to repair than building a new lab." See also Scott Paper Co. v. Commissioner, 74 T.C. at 172 (primary electric components remained "intact and reusable" after their removal).

Acknowledging that the tanks sustain only minimal damage when moved intact, respondent's arguments with respect to this Whiteco factor focus on the dismantling and reconstruction method described in API Standard 653. According to respondent, because the steel may not return to its original shape once the tanks are reconstructed, the tanks sustain damage when they are cut up and moved any distance. Respondent also relies on Mr. Watson's opinion that a reconstructed tank never looks the same and, therefore, is an inferior product.

Even if dismantling and reconstructing a tank may somewhat distort the tank's shape, the record contains no evidence from which to conclude that the damage would be significant or that the tank would no longer be usable. To the contrary, if the procedures in API Standard 653 are properly followed, the reconstructed tank will have an "acceptable appearance and structural integrity". *154 In addition, during the years in issue, and after CITGO relocated Vicksburg tank No. 2 using this method, Vicksburg tank No. 2 remained in service. This factor favors petitioner.

Petitioner asserts that the tanks are not fastened, tied, or otherwise attached to the land. According to petitioner, most of CITGO's tanks at issue merely rest on top of "native soil", and the remainder sit on concrete ringwall foundations, which foundations are not damaged when the tanks are moved. Respondent counters that the tanks' sheer weight and size affix them to the land.

In Whiteco Indus., Inc. v. Commissioner, supra at 666-667, the outdoor advertising signs' poles were driven 5 to 10 feet into the ground and were cemented in place by concrete rings. Even so, because the poles could "easily be removed from the ground", and were removed in practice, we concluded that the poles' manner of affixation to the land did not reflect permanence. Id. at 673.

In JFM, Inc. & Subs. v. Commissioner, T.C. Memo. 1994-239, we decided that the gasoline canopies were not permanently affixed to the land, even*155 though the canopies' posts were bolted onto special concrete footings. We observed that, once the posts were unbolted, the concrete footings were the only "residual structures remaining on the land." Id.; see also Standard Oil Co. (Ind.) v. Commissioner, 77 T.C. at 407, 409 (service station sign poles bolted into concrete foundations were not permanently affixed); Fox Photo, Inc. v. Commissioner, T.C. Memo. 1990-348 (1-hour photo labs attached to their foundations, but easily removable, were not permanently affixed); Film N' Photos, Inc. v. Commissioner, supra (photo merchandising units attached to concrete bases that only rested on the parking lot were not permanently affixed to the land).

Unlike the property in Whiteco or JFM, CITGO's tanks are not buried underground or bolted to their foundations; the tanks rest on top of their foundations. Contending that the tanks' "massive weight and size * * * make them sufficiently affixed to the land for Whiteco purposes", respondent relies on Siler v. Commissioner, T.C. Memo 1985-257">T.C. Memo. 1985-257.

In Siler, the property at issue was six horizontally positioned petroleum product storage tanks with*156 11,500- to 17,500-gallon capacities, which were cradled in the U-shaped top of concrete or brick piers extending 30 inches below ground. The storage tanks had not been moved for at least 24 years. We applied Whiteco and held that the storage tanks were inherently permanent structures. With respect to the sixth Whiteco factor, we concluded that the storage tanks' sheer weight and girth affixed them to the piers, and we analyzed the storage tanks and the piers as "integrated units". In a footnote, we explained our decision to treat the storage tanks and piers as one unit as follows: (1) There was never an intention to move the storage tanks; (2) the storage tanks had never been moved; and (3) moving the storage tanks could be done only with great expense and difficulty. Siler v. Commissioner, supra.

Although Siler also involved petroleum product storage tanks, the facts of Siler are distinguishable from those of the present case. CITGO's tanks are vertical, whereas the storage tanks in Siler were cradled horizontally. Most importantly, the reasons we gave in Siler for treating the storage tanks and piers as one unit are not applicable to the present case: CITGO cannot realistically*157 expect the tanks to remain permanently in place; CITGO has moved tanks in the past; and CITGO can move tanks without relatively great expense or difficulty when the cost of relocating tanks is compared to the cost of constructing new tanks. See supra pp. 8-9, 15-16.

We agree that CITGO's tanks have substantial weight, but the tanks are not affixed to their foundations in any manner that would indicate the tanks are to remain there permanently. Consequently, we conclude that this factor favors petitioner.

After carefully considering all of the facts and concluding that all six Whiteco factors favor petitioner, we hold that the tanks are not inherently permanent structures. Accordingly, the tanks are included in asset class 57.0 of Rev. Proc. 87-56, 1987-2 C.B. 686, and treated as 5-year property under section 168(e)(1).

We have considered the remaining arguments of both parties for results contrary to those expressed herein and, to the extent not discussed above, find those arguments to be irrelevant, moot, or without merit.

To reflect the foregoing,

Decisions will be entered under Rule 155*158 .