US1184649A - Operating sulfur-wells. - Google Patents

Operating sulfur-wells. Download PDF

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US1184649A
US1184649A US3873715A US3873715A US1184649A US 1184649 A US1184649 A US 1184649A US 3873715 A US3873715 A US 3873715A US 3873715 A US3873715 A US 3873715A US 1184649 A US1184649 A US 1184649A
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sulfur
casing
water
well
perforations
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US3873715A
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William D Huff
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LOUISE GUIDRY MOSS
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LOUISE GUIDRY MOSS
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    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B43/00Methods or apparatus for obtaining oil, gas, water, soluble or meltable materials or a slurry of minerals from wells
    • E21B43/285Melting minerals, e.g. sulfur

Definitions

  • My present invention relates to the operation of sulfur wells, especially to those wells in which the sulfur is caused to flow by fusion into the bottom of a easing, and is lifted therefrom by an air Ajet acting after the manner of the well known aerial column.
  • the present method of loperation of sulfur wells it is customary to inject hot water from the surface down into the sulfur-bearing strata, which hot water, percolating through these strata, melts the sulfur and the sulfur flows down into the bottom of the cavity which has ⁇ been previously excavated in drilling the well.
  • the sulfur will form a layer beneath the water in this cavity because of its greater specific gravity. rl ⁇ he temperature of the water should be high enough to melt the sulfur, but not so high as to cause it to assume the viscous or allotropic condition, which condition is generally reached at a temperature of about 380F.
  • Figure 1 shows a central vertical section through the well casing, with the parts inclosed therein shown partly broken away and partly in elevation, and it also shows in diagrammatic form the apparatus used above the surface of the ground.
  • Fig. 2 shows on a larger scale a central vertical section through the upper part of the well casing; and Fig. 3 is a detail showing, in section, one formof air jet for lifting the melted sulfur.
  • 1 represents the well casing constructed in the usual way of suitable gas-tight material, and having its sides perforated toward the bottom as at 2. Near the top of this casing is provided an opening 3 to which the pipe t is connected, which pipe is provided with a pressure gage 5, a safety valve 6, and a valve la which may be used to let olf pressure or to admit liquid into the interior of the casing.
  • the top of the well casing is screw-threaded, as at 7, to receiveV the cap 8 which is secured on the top of the casing above the packing 9,- and this cap is provided with a suitable gland 10 through which passes the central or lifting tube 11, which tube projects down below the bottom of the casing, as shown at 11a in Fig. 1, and the top of the tube is provided with a union 12 connecting the same to the delivery pipe 13 which is controlled by the valve 14.
  • This union is also connected by the pipe 15 and hose 16 to a suitable source of compressed air 17, which is shown diagrammatically in said figure.
  • rlhe pipe 15 connects to the inner pipe 18, passingdown into the central tube 11, and terminating in a suitable air jet 19 provided with outlet openings 20 for the escape of compressed air, shown in Fig. 3.
  • This cable passes up through a plug 25 in the well casing,and the individual conductors are Connected to separate switches located in the switch-board 26, each of which switches is adapted to make connection with the main 27 which is supplied with electricity from any suitable source, as the dynamo 28.
  • the return main .29 is grounded in any convenient way, preferably by connecting same to the inner pipe 11, as shPown in Fig. 1, thus providing an all-metallic circuit for the electricity.
  • a suitabl lvolt meter, indicated by Vf is preferably provided, and suitable resistance coils and.
  • ammeters A may be provided for each switch, as shown in Fig. 1.
  • the electric 'connections are shown diagrammatically in "Said ligure, but the apparatus is intended to provide means for heatingeach electric coil, :Land Ifor regulating the temperature of each 251-- coil, independently of all'the others.
  • the water was not under steam or other' li0 sulfur, or a small amount only, inthe lower portion 'of the tube 11; turn on the electricity tothe heaters andheatthe water in'- #the sulfur strata toa temperature high enough to melt the sulfur.
  • the welllv ' is suiiciently deep Vthe pressure ofthe water will be s ulicientl to enable the water to be heated to the desired high temperature, without thepgeneratibn of steam; but where the s well is shallow .steamis generated insidethe l casing and, rising above the water therein,
  • the heater 21 should preferably have the largest heating capacity, inasmuch as its function is to heat the water in the bottom of the well, while heaters 21a' and 21" are in- 96 tended mainly to keep the sulfur in the fused condition as it rises in the well, but, of course, these upper heaters will materially assist in maintaining the desired pressure and temperature in the' interior of the well casing.
  • the number ofthese heaters may be varied vaccording to the depth of the well andother local conditions, and while I have shown three such heaters, any number .from one up, may be used.
  • vthe electrical connections may be of any suitable kind, as I am not claiming in this application any particular construction of heater, or any particular arrangement of electric circuits, these being described and claimed g in my other applications hereinbefore referred to.
  • Apparatus for operating sulfur mines comprising a Well casing closed at the top and provided With perforations near its bottom, ⁇ a heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water after contacting with said heater to circulate through the perforations in the casing and into the sulfur bearing strata, thereby melting the sulfur, and means for carrying off the melted sulfur, substantially as described.
  • Apparatus for voperating sulfur mines comprising a Well casing provided With perforations near its bottom, a heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water after contacting with said heater to circulate through the perforations in the casing and into the sulfur bearing strata, thereby melting the sulfur, and means for carrying o the melted sulfur, substantially as described.
  • An apparatus for operating sulfur mines comprisin a Well casing closed at the top and provi ed with perforations near its bottom, an electric heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water,
  • An apparatus for operating sulfur mines comprising a Well casing closed at the top and provided with perforations near its bottom, a series of electric heaters mounted in said casing Within the perforated area near the bottom thereof for heating the Water-in the Well and causing said Water, after contacting with said heater, to circulate through the perforations in the ycasing and into the sulfurbearing strata to melt the sulfur, and for heating the interior of said casing above the level of the Water therein, for supp'lyl said heaters with electricity, an inner pipe for carrying off the fused sulfur projecting down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the well, substantially as described.
  • An apparatus for operating sulfur mines comprising a Well casing closed at the top and provided with perforations near its bottom, means for supplying Water through the upper part of said casing, an electric heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water, after contacting with said heater, to circulate through the perforations in the casing and into the sulfur bearing strata to melt the sulfur, means for supplying said heater with electricity, an inner pipe for carrying off the fused sulfur projecting down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the well, substantially as describedD 6.
  • An apparatus for operating sulfur mines comprising a.
  • Well casing closed at the top and provided with perforations near its bottom, means for supplying, Water through the upper part of said casing, a series of electric heaters mounted in said casing near the bottom thereof for heating the Water in the Well and causing said heated Water to flow through said perforations to melt the sulfur, and for heating the interior of said casing above the level of the Water therein, means for supplying said heaters With electricity, an inner pipe for carrying off the fused sulfur projecting. down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the Well, substantially as described.
  • An apparatus for operating sulfur mines comprising a Well casing closed at the top and provided With perforations near its bottom, means for relieving the pressure wth in said casing when desired, and means for supplying Water through the upper part of said casing, an electric heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water, after contacting with said heater, to circulate through the perforations in the casing and into the sulfur bearing strata to melt the sulfur, means for supplying said heater With electricity, an inner pipe for carrying 0E the fused sulfur projectlng down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the Well, ⁇ substantially as described.
  • An apparatus for operating sulfur mines comprising a Well casing closed at the top and provided With perforations near its bottom, means for relieving the pressure lm 'insaid casing when desired, and means for supplying water throughthe upper part of said mounted in said casing near ⁇ the bottom thereof for heating thewater in the well. and causin v said heated Water to flow through sai perforations to melt the sulfur, and -for heating the interior of said casing above the level of the Water therein,

Description

w. n. HUH; OPERATING SULFUR WELLS. APPLICATION FILED. LULY 3 19I5.
WMIIIIIH AIIIIIIIAVIVIIIIMI Patented May 23, 1916.
III
WILLAM D. HUET, 0F LA FAYETT, LOUJISXANA, ASSIG-NOR 0F THREE-FOURTHS T LOUISE GUIDRY MOSS, 0F NEW IBERIA, LOUlISIANA.
'primari-Ne snnrnnfvvnnns.
Spetication of Letters Patent.
Patented May 23, 191th..
Application filed July 8, 1915.` Serial No. 38,737.
it appertains to make and use the same.
My present invention relates to the operation of sulfur wells, especially to those wells in which the sulfur is caused to flow by fusion into the bottom of a easing, and is lifted therefrom by an air Ajet acting after the manner of the well known aerial column.
According to the present method of loperation of sulfur wells, it is customary to inject hot water from the surface down into the sulfur-bearing strata, which hot water, percolating through these strata, melts the sulfur and the sulfur flows down into the bottom of the cavity which has `been previously excavated in drilling the well. The sulfur will form a layer beneath the water in this cavity because of its greater specific gravity. rl`he temperature of the water should be high enough to melt the sulfur, but not so high as to cause it to assume the viscous or allotropic condition, which condition is generally reached at a temperature of about 380F.
lln all of the sulfur mines with which ll am familiar, there is more or less water already contained in or above the sulfur-bearing strata, and it is the purpose of my invention to heat this water already naturally occuring to the proper temperature to melt the sulfur,and then to lift the sulfur up from the mine without the necessitiy for using any heating apparatus whatsoever on the surface of the gro-und. lf, however, there should not be sullicient water n situ to accomplishv the desired result, an additional supply of water can be delivered into the casing from the surface and allowed to flow out of the bottom thereof into the sulfur-bearing strata at the bottom of the well.
melt the sulfur, and finally, by means of an l air jet, to lift the sulfur so melted up from the mine to the surface of the ground.
My invention will be more fully understood by reference to the accompanying drawings, in which similar parts are indicated by similar reference symbols throughout the several views, and in which:
Figure 1 shows a central vertical section through the well casing, with the parts inclosed therein shown partly broken away and partly in elevation, and it also shows in diagrammatic form the apparatus used above the surface of the ground. Fig. 2 shows on a larger scale a central vertical section through the upper part of the well casing; and Fig. 3 is a detail showing, in section, one formof air jet for lifting the melted sulfur.
1 represents the well casing constructed in the usual way of suitable gas-tight material, and having its sides perforated toward the bottom as at 2. Near the top of this casing is provided an opening 3 to which the pipe t is connected, which pipe is provided with a pressure gage 5, a safety valve 6, and a valve la which may be used to let olf pressure or to admit liquid into the interior of the casing. The top of the well casing is screw-threaded, as at 7, to receiveV the cap 8 which is secured on the top of the casing above the packing 9,- and this cap is provided with a suitable gland 10 through which passes the central or lifting tube 11, which tube projects down below the bottom of the casing, as shown at 11a in Fig. 1, and the top of the tube is provided with a union 12 connecting the same to the delivery pipe 13 which is controlled by the valve 14. This union is also connected by the pipe 15 and hose 16 to a suitable source of compressed air 17, which is shown diagrammatically in said figure.
rlhe pipe 15 connects to the inner pipe 18, passingdown into the central tube 11, and terminating in a suitable air jet 19 provided with outlet openings 20 for the escape of compressed air, shown in Fig. 3.
Mounted on the exterior of the pipe 11 are a series of electric heaters-21, 2P* and 21, the lowest of which is preferably of greater heating capacity than the upper ones, for
wires 22, which are bound up in a suitable insulated cable 23,which cable is secured to the inner pipe in any convenient way, as by the strips 24. This cable passes up through a plug 25 in the well casing,and the individual conductors are Connected to separate switches located in the switch-board 26, each of which switches is adapted to make connection with the main 27 which is supplied with electricity from any suitable source, as the dynamo 28. The return main .29 is grounded in any convenient way, preferably by connecting same to the inner pipe 11, as shPown in Fig. 1, thus providing an all-metallic circuit for the electricity. Between the mains 27 and 29 a suitabl lvolt meter, indicated by Vf is preferably provided, and suitable resistance coils and. ammeters A may be provided for each switch, as shown in Fig. 1. The electric 'connections are shown diagrammatically in "Said ligure, but the apparatus is intended to provide means for heatingeach electric coil, :Land Ifor regulating the temperature of each 251-- coil, independently of all'the others.
In the operation of the device the well is fbored' in the usual way and an enlarged chamber is provided in the earth belowr the end of the casing, as shown Fig. 1. The 30 normal static head of the water in the ground would be at some point indicated by the line X-X, and the interior of the well casing would, of course, be normally filled with water up to this level when there isl v no steam or other gas pressure on the' interior of the casing. At this time the static head ofthe sulfur in theinner tube, 11 would be about the position indicated by Y-Y, see Fig. 1, the level being materially lower 40'A owing to the difference between thel specic gravity of water and sulfur. Now, this -would be the normal position of the water and the Sulfur when the Sulfur wasin the melted condition and rose to its static head,
andthe water was not under steam or other' li0 sulfur, or a small amount only, inthe lower portion 'of the tube 11; turn on the electricity tothe heaters andheatthe water in'- #the sulfur strata toa temperature high enough to melt the sulfur. Wherey the welllv 'is suiiciently deep Vthe pressure ofthe water will be s ulicientl to enable the water to be heated to the desired high temperature, without thepgeneratibn of steam; but where the s well is shallow .steamis generated insidethe l casing and, rising above the water therein,
,will generate sufficient pressureto secure the v desired heat of the water.
- In practice there will bea series ofconvecv` tion currents `for the, heated water in the l1 5 interior of the casing, out through the upper i the sul tiers of perforations 2, into the 'strata of earth, and down through said strata back up past the heater 21 into the casing, and out again as the water is heated by the heater 21'. 70 The sulfur being melted in the veins will vow down into the chamber below-the well casing, assuming the level indicated approximately by the line Z-Z in Fig.- 1, and will continue4 flowing as long as the veins are 75 maintained ata sufficiently high temperature, and there is sulfur remaining therein. As the sulfur fiows into the chamber, it will rise on the interior of the inner pipe 11 to the level YY, which is correspondingly 80 lower than the normal static head of the water 'X-X inside of said casing, so that the column of sulfur insideof the inner pi e 11 will balance the column of water insi e of the casing. As` soon as the sulfur has reached the desired height, air is turned through the valve 17, through the hose 16 and pipe 15, and passing down through the pipe 18 escapes from the jet 19, and carries fur up with it, forcing it out through the delivery pipe 13.
The heater 21 should preferably have the largest heating capacity, inasmuch as its function is to heat the water in the bottom of the well, while heaters 21a' and 21" are in- 96 tended mainly to keep the sulfur in the fused condition as it rises in the well, but, of course, these upper heaters will materially assist in maintaining the desired pressure and temperature in the' interior of the well casing. The number ofthese heaters may be varied vaccording to the depth of the well andother local conditions, and while I have shown three such heaters, any number .from one up, may be used. While I prefer to have the heaters each independently con-l nected to the source of electricity, vthe electrical connections may be of any suitable kind, as I am not claiming in this application any particular construction of heater, or any particular arrangement of electric circuits, these being described and claimed g in my other applications hereinbefore referred to. Generally in' such wells lthere is' an ample supplyof water `found in the' "there is no vsteam pressure 1n the interior ofl the well casing, and the valve 4 closed again, when the water in the well casing may 125 beheated and the steam pressure forming in the top of the same will force the, heated water down and out through the perfora tions 2, as hereinbefore described. .But
whether water is derived from the earth 130 111s'v earth, but should an additional water supply itself or from extraneous sources, it is heated to a high temperature in the Well under a pressure generated therefrom, and by this pressure is forced, While so highly heated,
into the sulfur-bearing strata, and cooling slightly tends to fall through said strata with the resulting convection currents indicated by the arrows in Fig. 1.
Having thus described my invention, what l claim and desire to secure by Letters Patent of the United States, is:
l. Apparatus for operating sulfur mines comprising a Well casing closed at the top and provided With perforations near its bottom, `a heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water after contacting with said heater to circulate through the perforations in the casing and into the sulfur bearing strata, thereby melting the sulfur, and means for carrying off the melted sulfur, substantially as described.
2. Apparatus for voperating sulfur mines comprising a Well casing provided With perforations near its bottom, a heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water after contacting with said heater to circulate through the perforations in the casing and into the sulfur bearing strata, thereby melting the sulfur, and means for carrying o the melted sulfur, substantially as described. c,
3. An apparatus for operating sulfur mines, comprisin a Well casing closed at the top and provi ed with perforations near its bottom, an electric heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water,
after contacting with said heater, to circuf late through the perforations in the casing and into the sulfur bearing stratato melt the sulfur, means for supplying saidheater with electricity, an inner pipe for carrying off the fused sulfur projecting down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the Well, substantially as described.
v,4. An apparatus for operating sulfur mines, comprising a Well casing closed at the top and provided with perforations near its bottom, a series of electric heaters mounted in said casing Within the perforated area near the bottom thereof for heating the Water-in the Well and causing said Water, after contacting with said heater, to circulate through the perforations in the ycasing and into the sulfurbearing strata to melt the sulfur, and for heating the interior of said casing above the level of the Water therein, for supp'lyl said heaters with electricity, an inner pipe for carrying off the fused sulfur projecting down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the well, substantially as described.
5. An apparatus for operating sulfur mines, comprising a Well casing closed at the top and provided with perforations near its bottom, means for supplying Water through the upper part of said casing, an electric heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water, after contacting with said heater, to circulate through the perforations in the casing and into the sulfur bearing strata to melt the sulfur, means for supplying said heater with electricity, an inner pipe for carrying off the fused sulfur projecting down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the well, substantially as describedD 6. An apparatus for operating sulfur mines, comprising a. Well casing closed at the top and provided with perforations near its bottom, means for supplying, Water through the upper part of said casing, a series of electric heaters mounted in said casing near the bottom thereof for heating the Water in the Well and causing said heated Water to flow through said perforations to melt the sulfur, and for heating the interior of said casing above the level of the Water therein, means for supplying said heaters With electricity, an inner pipe for carrying off the fused sulfur projecting. down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the Well, substantially as described.
7\. An apparatus for operating sulfur mines, comprising a Well casing closed at the top and provided With perforations near its bottom, means for relieving the pressure wth in said casing when desired, and means for supplying Water through the upper part of said casing, an electric heater mounted in said casing Within the perforated area near the bottom thereof for heating the Water in the Well and causing said Water, after contacting with said heater, to circulate through the perforations in the casing and into the sulfur bearing strata to melt the sulfur, means for supplying said heater With electricity, an inner pipe for carrying 0E the fused sulfur projectlng down in said casing and projecting beyond the lower end thereof, and means for raising the fused material from the Well,` substantially as described.
8. An apparatus for operating sulfur mines, comprising a Well casing closed at the top and provided With perforations near its bottom, means for relieving the pressure lm 'insaid casing when desired, and means for supplying water throughthe upper part of said mounted in said casing near `the bottom thereof for heating thewater in the well. and causin v said heated Water to flow through sai perforations to melt the sulfur, and -for heating the interior of said casing above the level of the Water therein,
casmg, a series Vof electric heatersv means forfsupplying saidheaters withjelec ture.
a WILLIAM D. -HUFF.
US3873715A 1915-07-08 1915-07-08 Operating sulfur-wells. Expired - Lifetime US1184649A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3187814A (en) * 1963-08-01 1965-06-08 Mccarthy Margaret Lee Electrical oil well heater apparatus
US3620571A (en) * 1969-06-16 1971-11-16 Calvin H Billings Single-well heated gas mining method and apparatus
US4869555A (en) * 1988-01-06 1989-09-26 Pennzoil Sulphur Company Apparatus for recovery of sulfur
US6353706B1 (en) * 1999-11-18 2002-03-05 Uentech International Corporation Optimum oil-well casing heating

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3187814A (en) * 1963-08-01 1965-06-08 Mccarthy Margaret Lee Electrical oil well heater apparatus
US3620571A (en) * 1969-06-16 1971-11-16 Calvin H Billings Single-well heated gas mining method and apparatus
US4869555A (en) * 1988-01-06 1989-09-26 Pennzoil Sulphur Company Apparatus for recovery of sulfur
US6353706B1 (en) * 1999-11-18 2002-03-05 Uentech International Corporation Optimum oil-well casing heating

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