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Publication numberUS2934904 A
Publication typeGrant
Publication dateMay 3, 1960
Filing dateSep 1, 1955
Priority dateSep 1, 1955
Publication numberUS 2934904 A, US 2934904A, US-A-2934904, US2934904 A, US2934904A
InventorsHendrix Hurshel V
Original AssigneePhillips Petroleum Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Dual storage caverns
US 2934904 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)


United Stat quently becomes encrusted with salt.

DUAL STORAGE CAVERNS Hurshel V. Hendrix, Bartlesville, Glila., assigner to Phillips Petroleum Company, a corporation of Delaware Application September 1, 1955, Serial No. 532,059 2 Claims. (Cl. 61.5)

these cavernsV are formed by dissolving with Water aV cavity within a salt bed. The material to be stored is then introduced into the cavern where it remains until it is to beA used. Many methods have been devised to remove such stored material, however, all of these methods have certain disadvantages. For example, these caverns are frequently quite deep and pumping costs are consequently4 quite high. If the pump is in the bottom of the well, maintenance is difficult, if not impossible without removing the entire pumping equipment. Frequently, the material can be removed by vaporization, however,` in this case, the heat exchange equipment fre One method employedhas been to displace the stored material with water or brine, however, many such caverns are located where water or brine is scarce and bulky brine orwater storage facilities are required above ground.` When such caverns are formed in salt beds, then brine must be used `-or the cavern will continually'be enlarged by further dissolving the salt infreshwater. VFreqliently, one using underground storage will have 'a productlwhich is high in demand in one season and a different product is in high demand during another season. For the most economical operation of processing equipment, such equipment should operate at a uniform rate on a year round basis. This invention is especially useful Where two such prod ucts are being produced. Examples of such products are liquid petroleum gas (LPG) and gasoline. The LPG has a high winter demand while gasoline has a high' v summer demand.

An object of this invention is to provide a novel storage system for storing dissimilar liquids underground.

Another object of this invention is to provide a storage system wherein the displacementliquid is always contained therein.

Still other objects, advantages and features of this ini, vention will be apparent to those skilled in the art having been given this disclosure.

'I he apparatus of this invention comprises two under ground caverns having a means of communication there between and containing the displacement liquid therein.

The method of this invention comprises containing a product liquid inone cavern, containing a displacement liquid in a second cavern and displacing said product liquid with said displacement liquid to remove said product liquid.

When only one product is to be stored, one cavern will generally be formed at a higher level than is the other cavern. The lower cavern will then be filled with a displacement liquid such as water or brine after which the liquid to be stored is forced into said lower cavern under pressure so as to force the displacement liquid 2,934,904 Patented May 3, 1960 through a conduit means to the upper cavern. VWhen it is desired to remove the stored liquid, the weight of the displacement liquid will force the stored liquid up and out of the cavern. On the other hand, whentwo products are to be stored during opposite seasons, the caverns can be at the same level or at different levels depending upon the cost of installation, nature of the formation in which the caverns are to be formed, etc. In this two product storage system, when one cavern is full of product the displacement liquid will be in the other cavern and if the caverns are of the same volume, as will usually be the case, the other cavern will be full of displacement liquid. The storage requirements will then change and the second liquid to be stored will be pumped into the cavern initially containing the displacement liquid there# by forcing said displacement liquid into the caverncontaining the first stored liquid and displacing same.

The two caverns will, in general, be of substantially equal volume, however it is within the scope of the invention to` use Vcaverns of different volumes. However,` if caverns of different volumes are used, auxiliary equipment will be required to remove the last portion of the product being stored in the larger of the two caverns. ln any case, provision will be made for passing liquid from a position near the bottom of one cavern to a position near the bottom of the second cavern and a product conduit will be installed in each cavern.

The advantages and features of this invention'can best be described by referring to the drawings of whichz Figure l is a sectional schematic diagram of caverns in a salt formation wherein two products are being stored with one cavern at an elevation greater than the other;

Figure 2 is a sectionalY schematic diagram of caverns in a salt formation wherein onel of said caverns is used for storing the displacement liquid, the connecting conduits being of different arrangement than is Figure 1; and

Figure 3l is a sectional' schematic -diagram of caverns in asaltformation' wherein both caverns are at the same Y.

lmunication from a position near thel bottom of"said caverns and passing overhead.

In the above drawings, the overhead conduit is most conveniently employed inV caverns of the same level wherein caverns located at different levels, the underground conduits or passage ways are most conveniently employed, however, it is within theV scope of this invention to use either communication means in either arrangement of caverns.

In the description of the drawings which follows, it will he assumed that the caverns are in salt formations, however, it should be understood that lsaid caverns can be in any impervious formation whether natural or artiiicial; that the displacement liquid is brine; that the product being stored in one cavern (product A) is LPG and the product being stored in the other cavern (product E in Figures l and 3) is gasoline.

Reerring to Figure 1, a cavern 1 is formed at a low level in salt bed 3 and cavern 2 is formed at a higher level. These caverns can be formed by any method known in the art, however, in a salt formation, one convenient method is to sink a shaft from the surface of the earth 4 to a position near the bottom of the desired cavern. A conduit is lowered into the shaft to a position near its bottom and a liner 5 is placed in the shaft from the earths surface to a position wherein it is desired that the top of the cavern be located. This liner is cemented in place by concrete 6. Water is then pumped through the first said conduit to the bo'ttom of the shaft wherein it dissolves salt forming the cavern, the brine so formed tlowing out through liner 5. After the cavern is formed, the rst conduit is removed and the liner can be capped such as by 7. A product line 8 is installed in liner 5. Cavern 2 is formed in the same manner leaving liner 9 and product conduit 10. The bottom of the two' caverns is then joined by conduit 11.

In the operation of this embodiment, sufficient brine is introduced, or left after preparation, to ll one of said caverns. LPG is then introduced into cavern 1 via co'nduit 8 and liner 5 ldisplacing the brine forcing it into cavern 2 via conduit 11. When the season for storing LPG is over, gasoline will be stored by passing it into cavern 2 via conduits 10 and liner 9 thereby pushing the brine back into cavern 1 displacing LPG which is removed via conduit 8. The following season, the cycle is reversed and LPG is again sto'red forcing the brine into cavern 2 displacing gasoline.

Referring to Figure 2, cavern 12 is formed in much the same manner as was cavern 1 of Figure 1 with the exception that 12a is formed by leaching or fracturing methods. Cavern 13 is formed as was caverns 2 and the bottom of cavern 13 is joined to the projection 12a by means of a conduit or liner 14. Cavern 12 is equipped with inlet- Yo'utlet conduit 15 cemented in place, said conduit 15 having a product conduit 16 installed therein. Cavern 13 is also equipped with an inlet-outlet conduit 17 and this conduit has an air line 18 installed therein. This line 18 can consist merely of a bleed vent or opening in conduit 17. Brine is introducedinto the system and then the material to be stored is passed via conduits 16 and 15 to cavern 12 displacing brine which passes via projection 12a and co'nduit 14 to cavern 13. This cavern will generally be opened to the atmosphere. Now when it is desirable to remove product from cavern 12, the pressure of the brine, being at a higher level, will force the stored product back up the conduits 15 and 16. Air from the atmosphere will lill in the space left in cavern 13.

Referring to Figure 3, two caverns 19 and 20 are formed in an impervious formation at about the same level. Like the caverns of Figures 1 and 2, these caverns that the gasoline would also have to be introduced under pressure since the brine is not elevated as it was in Figure 1. In the modification shown in the figure, a conduit 25 extends down through conduits 21 and 23 to a position near the bottom of the caverns. This conduit ZS connects to a trap 26 wherein any hydrocarbon which might be accidentally drawn olf with the brine, will be caught and bled off via conduit 27.

Several modifications have been suggested in the preceding discussion. Those skilled in the art will see many modifications which can be madepwithout departing from the scope of this invention.

I claim:

1. A method of storing and withdrawing, respectively, two different fluids, one being in relatively great supply while the other is in relatively short supply, said method comprising forcing the fluid which is in relatively great supply into one of two subterranean cavities, saidY other cavity containing said tluid which is in relatively short supply, said cavities being in open communication with each other at their lower ends via conduit means, said cavities being partially illed with a liquid which is heavier than, and immiscible with, said two liuids, thus forcing said liquid into4 said otherof said cavities and forcing the uid which is inr relatively short supply out of said other cavity. Y l Y 2. The method of claim 1 wherein the displacement liquid is brine, the lirst said fluid is liquid petroleum gas and the second said uid is gasoline.

References Cited in the le of this patent UNITED-STATES PATENTS Re. 24,318 Pattinson May 14, 1957 1,784,943 Muller Dec. 16, 1930 2,399,994 Feagin May 7, 1946 2,433,896 Gay Jan. 6, 1948 2,459,227 Keri Jan. 18, 1949 2,659,209 Phelps Nov. 17, 1953 2,661,062 Edholm Dec. 1, 1953 2,788,637 Benz Apr. 16, 1957 OTHER REFERENCES Quarry Storage for Heating Oils, pp. 42 and 43, The Oil & Gas Journal for July 6, 1953.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1784943 *Jul 13, 1929Dec 16, 1930Ignaz MullerSeparator for light liquids
US2399994 *Apr 19, 1944May 7, 1946Robert C FeaginOil strainer
US2433896 *Apr 16, 1943Jan 6, 1948Frazer W GayMeans for storing fluids for power generation
US2459227 *Aug 6, 1946Jan 18, 1949Phillips Petroleum CoUnderground reservoir for the storage of liquefied gases
US2659209 *Mar 23, 1951Nov 17, 1953Warren Petroleum CorpUnderground liquid storage facility and the method of selecting and preparing the same
US2661062 *Jun 26, 1950Dec 1, 1953Harald EdholmContainer for storing oil and like fluids
US2788637 *Dec 4, 1952Apr 16, 1957Phillips Petroleum CoUnderground storage systems and improved method of operating
USRE24318 *May 14, 1957 Method of storing gases or liquids
Referenced by
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US3208537 *Dec 8, 1960Sep 28, 1965Reed Roller Bit CoMethod of drilling
US3253414 *Jul 6, 1962May 31, 1966Phillips Petroleum CoMethod and apparatus for operating underground storage caverns
US3385067 *Mar 8, 1966May 28, 1968Shell Oil CoMethod of underground storage in a reservoir
US3438203 *Aug 8, 1967Apr 15, 1969Shell Oil CoMethod of removing hydrocarbons from salt caverns
US4326820 *Nov 28, 1978Apr 27, 1982Gesellschaft Fur Strahlen-Und Umweltforschung Mbh MunchenFinal depository for radioactive wastes
US6988548Oct 3, 2002Jan 24, 2006Cdx Gas, LlcMethod and system for removing fluid from a subterranean zone using an enlarged cavity
US7073595Sep 12, 2002Jul 11, 2006Cdx Gas, LlcMethod and system for controlling pressure in a dual well system
US7090009Feb 14, 2005Aug 15, 2006Cdx Gas, LlcThree-dimensional well system for accessing subterranean zones
US7100687Nov 17, 2003Sep 5, 2006Cdx Gas, LlcMulti-purpose well bores and method for accessing a subterranean zone from the surface
US7134494Jun 5, 2003Nov 14, 2006Cdx Gas, LlcMethod and system for recirculating fluid in a well system
US7207395Jan 30, 2004Apr 24, 2007Cdx Gas, LlcMethod and system for testing a partially formed hydrocarbon well for evaluation and well planning refinement
US7222670Feb 27, 2004May 29, 2007Cdx Gas, LlcSystem and method for multiple wells from a common surface location
US7264048 *Apr 21, 2003Sep 4, 2007Cdx Gas, LlcSlot cavity
US7360595May 8, 2002Apr 22, 2008Cdx Gas, LlcMethod and system for underground treatment of materials
US7571771May 31, 2005Aug 11, 2009Cdx Gas, LlcCavity well system
US8291974Oct 31, 2007Oct 23, 2012Vitruvian Exploration, LlcMethod and system for accessing subterranean deposits from the surface and tools therefor
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U.S. Classification405/59, 175/53
International ClassificationB65G5/00
Cooperative ClassificationB65G5/00
European ClassificationB65G5/00