US3556208A - Underwater production satellite - Google Patents

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US3556208A
US3556208A US740521A US3556208DA US3556208A US 3556208 A US3556208 A US 3556208A US 740521 A US740521 A US 740521A US 3556208D A US3556208D A US 3556208DA US 3556208 A US3556208 A US 3556208A
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production
satellite
well
subsea
base template
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James T Dean
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ExxonMobil Oil Corp
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    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK 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
    • E21B43/01Methods or apparatus for obtaining oil, gas, water, soluble or meltable materials or a slurry of minerals from wells specially adapted for obtaining from underwater installations
    • E21B43/017Production satellite stations, i.e. underwater installations comprising a plurality of satellite well heads connected to a central station
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63GOFFENSIVE OR DEFENSIVE ARRANGEMENTS ON VESSELS; MINE-LAYING; MINE-SWEEPING; SUBMARINES; AIRCRAFT CARRIERS
    • B63G8/00Underwater vessels, e.g. submarines; Equipment specially adapted therefor
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B33/00Sealing or packing boreholes or wells
    • E21B33/02Surface sealing or packing
    • E21B33/03Well heads; Setting-up thereof
    • E21B33/035Well heads; Setting-up thereof specially adapted for underwater installations
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B41/00Equipment or details not covered by groups E21B15/00 - E21B40/00
    • E21B41/08Underwater guide bases, e.g. drilling templates; Levelling thereof

Definitions

  • ABSTRACT This specification discloses a method for the production of subaqueous deposits of fluid minerals through a subsea satellite system.
  • the wells are drilled in a circular pattern through a template on the marine bottom serving also as base upon which the satellite body is installed.
  • the production and control passages of each of the wells are connected to production equipment within the satellite body by separate connector units, independently lowered'into place from a surface vessel, to form portions of fluid paths between the passages within the subsea wellheads and the production equipment within the shell of the satellite.
  • Such an installation permits production through the satellite, installed on the template base,.after only one of the wells has been drilled and completed.
  • This invention relates to a method involving a subsea satellite designed to be independently connected to a number of surrounding subsea wellheads and to control the production therefrom, th e su baqueous wells being produced through the subsea satellite wherein the produced fluids are separated, metered, and from which they are transported to a storage facility. More particularly, the invention'relates to a method utilizing a simplified means for connecting a satellite separately to aplurality of closely surrounding subsea wellheads.
  • a possiblesolution is to install the production facilities on a floatingplatform, as is described in the H. D. Cox*U.S. Pat. No. 3,I 11,692, issued Nov. 26, I963, which can be maintained in position in a field by either a fixed multipoint mooring system of anchors and anchor lines, or by a dynamic positioning system.
  • the above solution involves the expense of continuous maintenance and surveillance of the locating system as well as the associated problemsand expense of maintaining the multiple, flexible lines connecting wellheads on the marine bottom with the continuously moving floating production platform; and'the potential hazard, of this system, to the hoses, in the event of a failure to the fixed mooring or dynamic positioning systems.
  • robots such asshown in the G. D.
  • a subsea satellite body can be installed on a base template on a marine bottom prior to the completion of any producing wells therethrough.
  • Each well when completed produces through upstanding tub-' thereof stabbing over the tubing nipples extending upwardly" from the subsea wellhead and the other endstabbing down over the vertical tubing nipples extending upwardly from the upper end of the satellite body.
  • FIG. 1 is a pictorial view of a subsea production system in accordance with the present invention
  • FIG. 2 is a schematic diagram of a satellite station configuration for allowing the satellite body to be installed on a base template of a satellite station prior to the completion of any of the wells through thezbase template.
  • FIG. I a subsea system for producing fluid minerals, in particular gas and oil, from a subaqueous field by a plurality of subsea wellheads is illustrated.
  • a plurality of subsea production satellite stations, generally designated [0. are
  • each satellite station I0 comprising a satellite body 15 centrally-positioned within a circular group of closely'spaced subsea wellheads'l4.
  • the produced fluids from the subaqueous wells are directed through encircling subsea wellheads I4 into the satellite body 15 of .the respective satellite station I0.
  • the fluids being produced from the subsea wellheads I4 of each circular group are combined within the respective enclosed satellite body 15 'andta first'stage of separation (gravity) takes place. At least the; liquid portion is then directed to'a circular manifold I6 atop a central bottom-mounted storage tank I) through a shipping line 18, one shipping line 18 extending from'each satellite station 10.
  • a floating master station 20 having power-generating and final stage separation equipment thereon, as well as being .fitted out with off-loading apparatus, is in fluid and electrical communication with the bottom-supported storage tank l7 through a tensioned tether pipe 22 extending from the storage tank 17 to a point just beneath the turbulent surface zone of the body of water and fixed at this point to a large subsurface buoy 24.
  • the produced liquid, collected in the circular manifold I6, is directed to the master station through a main shipping line 27 supported along the length of thetet'her pipe 22, and a fluid line forming a portion of the flexible "conduit 26.
  • the produced liquid passes through the final stage separation equipment on the master station 20'where the pressure is normalized and dissolved gases are removed.
  • the dead liquid is then transported to storage within the storage tank 17 through a line of the flexible conduit 26 connected to an axial passage in the interior of the tether pipe 22.
  • FIG. 1 In the upper left-hand comer of FIG. 1 is illustrated the drilling of a well through a satellite base template, generally designated 28, which has been previously installed on a marine bottom along with a shipping Kline I8 for connecting a satellite station, when completed in conjunction with the template 28, with the storage tank I'I.
  • a drill string 30 is suspended from above the surface from a semisubmersible drilling vessel 32 and extends through a blowout preventer stack 33 mounted on one of a plurality of upstanding well conductor pipes 34 forming a portion of the template 28.
  • Illustrated in the lower portion of FIG. 1 is a manned submersible work vehicle, generally designated 36, of a type to be employed to assist in the subsea operations and for the dry transfer of personnel to the satellite station 10.
  • the submersi ble work vehicle 36 has a pair of articulated arms 38 and 40 carrying a socket wrench 42 and a vise grip tool 44, respectively.
  • the submersible work vehicle 36 is further equipped with a pivotable positioning motor 46 on each side (one shown) to assist in locating the submersible work vehicle 36 adjacent a satellite station I0 firstly when subsea operations are to be performed during the drilling operations and the intimes during maintenance and workover operations.
  • a lower port 48 of the submersible work vehicle 36 is connected with a rear compartment (not shown) within the shell thereof to per mit a diver to be released at an installation site ifone should be Charles Ovid Baker, and Eugene L. Jones. and the references cited therein.
  • H0. 2 illustrates .a satellite station which is capable of being installed prior to completing any of the production wells through the ring 51 of the base template 28.
  • the satellite body is held in the satellite base 28 by a central sleeve 250 depending from the lower end of the satellite body and automatic spring-loaded latches (not shown) over the upper end of the well conductor pipe of the water well 52.
  • the latches can be disabled by a hydraulic pressure applied through the conduit 252 extending between a manifold 254, forming a portion of the framing of the base template 28, at the inner end, and a quick-disconnect coupling section 256, at the outer end.
  • the outer end of the conduit is supported by a skeletal frame 258 I to displace the coupling section 256 outward of the well conduc tor pipes 34.
  • the arrangement of the equipment within the satellite body 15 is described in detail in copending U.S. application, Ser. No. 740,783, filed Jun. 27, l968.
  • the connector units 54 are not permanently attached to the satellite body 15 but instead are stabbed-over tubing nipples 260 extending vertically out of the upper end of the satellite body 15.
  • the connector unit 54 consists of a curved tubing section 56 and a vertical lubricator section 58.
  • the lower end of the lubricator section 58 is stabbed over the tubing (not shown) extending vertically out of the upper end of the wellhead 14, while the outer vertical free ends of the curved tubing section 54 stabs over the respective ones of the upstanding tubing nipples 260 extending out of the upper end of the satellite body 15.
  • each connector section 54 being individually engaged between the wellhead l4 and the respective upstanding tubing nipples 260, greater tolerances can be allowed in installing the satellite body 15.
  • an individual well can be produced through the satellite station 10 while the remaining wells are still being drilled and completed.
  • each of the TFL storage chambers 146 is reoriented into a vertical position so as to be coaxialwith the respective tubing nipples 260.
  • the vertical position ofthe storage chamber 146 permits the TFL tool 126 stored therewithin to move easily into respective tubing nipples 260 so that it can be pumped, under fluid pressure, through a full bend in the tubingsections 56 of the connector unit 54.
  • Such a bend, of 180" will not present any insurmountable problems requiring only that the wells be spaced out far enough from the satellite body 15 to obtain a 5 foot radius bend in the conduit Stab-over connections, as discussed in this application, are more fully described in the Manning application Ser. No. 663,799.
  • a method for exploiting subaqueous deposits of fluid minerals through a subsea production station including the following steps: I
  • step (d) releasably installing a production satellite body beneath the surface of said body of water on said base template; subsequent to step (d), fluidly connecting said at least one completed well with production facilities through said production satellite body by means of a substantially rigid connector unit releasably connected between said at least one subsea wellhead supported on said base template and said production satellite body installed on said base template;
  • a method for exploiting subaqueous deposits of fluid minerals through a subsea satellite station as recited in claim 1, wherein said at least one well is drilled and completed, and" said production satellite body is installed, substantially from a floating station.

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  • Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • Mining & Mineral Resources (AREA)
  • Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
  • Fluid Mechanics (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Mechanical Engineering (AREA)
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Abstract

This specification discloses a method for the production of subaqueous deposits of fluid minerals through a subsea satellite system. The wells are drilled in a circular pattern through a template on the marine bottom serving also as base upon which the satellite body is installed. The production and control passages of each of the wells are connected to production equipment within the satellite body by separate connector units, independently lowered into place from a surface vessel, to form portions of fluid paths between the passages within the subsea wellheads and the production equipment within the shell of the satellite. Such an installation permits production through the satellite, installed on the template base, after only one of the wells has been drilled and completed.

Description

United States Patent [72] lnvcntor James T. Dean Dallas, Tex. 21 Appl. No. 740,521 [22] Filed June 27, 1968 [45] Patented Jan. 19, 1971 [73] Assignee Mobil Oil Corporation a corporation of New York [54] UNDERWATER PRODUCTION SATELLITE 2 Claims, 2 Drawing Figs. [52] U.S.Cl l66/.5, 166/75 [51] Int. Cl E2lb 7/12, E2lb 33/035 [50] Field ofSearch 175/8. 9; l66/.5, .6 [56] References Cited UNITED STATES PATENTS 3,111,692 11/1963 Cox l75/8X 3,261,398 7/l966 Haeber.. 166/.5 3,322,193 5/1967 Word 166/.6 3,355,591 11/1967 Bland ing etal. H 166/5 3384,169 5/1968 Leonard 166/.5 3,401,746 9/1968 Stevens et al. l66/.5 3;448,799 6/1969 Ahlstone 166/.5
ABSTRACT: This specification discloses a method for the production of subaqueous deposits of fluid minerals through a subsea satellite system. The wells are drilled in a circular pattern through a template on the marine bottom serving also as base upon which the satellite body is installed. The production and control passages of each of the wells are connected to production equipment within the satellite body by separate connector units, independently lowered'into place from a surface vessel, to form portions of fluid paths between the passages within the subsea wellheads and the production equipment within the shell of the satellite. Such an installation permits production through the satellite, installed on the template base,.after only one of the wells has been drilled and completed.
PATENTEUJAN -9 m 3.556208 sum 1 or 2 INVENTOR JAMES T. DEAN ATTORNEY Pmmwqmsmn 3556.208
sum 2 or 2 JAMES T DEAN ATTORNEY awww This invention relates to a method involving a subsea satellite designed to be independently connected to a number of surrounding subsea wellheads and to control the production therefrom, th e su baqueous wells being produced through the subsea satellite wherein the produced fluids are separated, metered, and from which they are transported to a storage facility. More particularly, the invention'relates to a method utilizing a simplified means for connecting a satellite separately to aplurality of closely surrounding subsea wellheads.
2. Description of the prior Art I Since its inception, the offshore oil and gas industry has used bottom-supported above surface platforms as the principal mechanism for the installation and support of the equipment and services necessary for the production of the subaqueous mineral deposits. As the industry has developed over the years, it-has extended its search for offshore minerals from its birthplace. producing oil and "gas inthe shallow coastal waters off California and the Gulf of Mexico into areas where. because of excessive water depth and/or other local conditions, the bottom-supported platform is not as economically or.
technologically feasible. i
A possiblesolution is to install the production facilities on a floatingplatform, as is described in the H. D. Cox*U.S. Pat. No. 3,I 11,692, issued Nov. 26, I963, which can be maintained in position in a field by either a fixed multipoint mooring system of anchors and anchor lines, or by a dynamic positioning system. The above solution involves the expense of continuous maintenance and surveillance of the locating system as well as the associated problemsand expense of maintaining the multiple, flexible lines connecting wellheads on the marine bottom with the continuously moving floating production platform; and'the potential hazard, of this system, to the hoses, in the event of a failure to the fixed mooring or dynamic positioning systems. In areas where there is extrememost necessitates the use of robots such asshown in the G. D.
Johnson US. Pat. No. 3,099,316, issudJuLBO, 1963. However, such instrumentalities are expensive and not without their own limitations and maintenance problems.
Another solution is disclosed in the William F Manning Pat. application Ser. No. 663,799, entitled Subsea Satellite Foundation Unit and Method for Installing a Satellite Body within said Foundation Unit, filed Aug. 28, I967. A template is first set on the marine bottom and the wells are drilled through the template. The Satellite is then set in the template, surrounded closely by the subsea wellheads. However, the satellite cannot be installed until all of thewells are completed. For purposes of economy, the satellite should be installed as soon as the first well is drilled and completed. Therefore, means must be devised for attaching each well independently to the satellite body. This is also desirable from the point of view of ease of registry of the satellite body with the wellheads.
SUMMARY OF THE INVENTION In accordance with the present invention, a subsea satellite body can be installed on a base template on a marine bottom prior to the completion of any producing wells therethrough.
Each well when completed produces through upstanding tub-' thereof stabbing over the tubing nipples extending upwardly" from the subsea wellhead and the other endstabbing down over the vertical tubing nipples extending upwardly from the upper end of the satellite body. 1
BRIEF DESCRIPTION OFTI-IE DRAWINGS FIG. 1 is a pictorial view of a subsea production system in accordance with the present invention; and FIG. 2 is a schematic diagram of a satellite station configuration for allowing the satellite body to be installed on a base template of a satellite station prior to the completion of any of the wells through thezbase template. r
' DESCRIPTION OF THE PREFERRED EMBODIMENTS Now looking to FIG. I, a subsea system for producing fluid minerals, in particular gas and oil, from a subaqueous field by a plurality of subsea wellheads is illustrated. A plurality of subsea production satellite stations, generally designated [0. are
spaced across a marine bottom 12. each satellite station I0 comprising a satellite body 15 centrally-positioned within a circular group of closely'spaced subsea wellheads'l4. The produced fluids from the subaqueous wells are directed through encircling subsea wellheads I4 into the satellite body 15 of .the respective satellite station I0. The fluids being produced from the subsea wellheads I4 of each circular group are combined within the respective enclosed satellite body 15 'andta first'stage of separation (gravity) takes place. At least the; liquid portion is then directed to'a circular manifold I6 atop a central bottom-mounted storage tank I) through a shipping line 18, one shipping line 18 extending from'each satellite station 10.
A floating master station 20, having power-generating and final stage separation equipment thereon, as well as being .fitted out with off-loading apparatus, is in fluid and electrical communication with the bottom-supported storage tank l7 through a tensioned tether pipe 22 extending from the storage tank 17 to a point just beneath the turbulent surface zone of the body of water and fixed at this point to a large subsurface buoy 24. A flexible conduit 26, containing a plurality of electrical and fluid flow paths, extends from the upper end of the tensioned tether pipe 22 to the floating master station 20. The produced liquid, collected in the circular manifold I6, is directed to the master station through a main shipping line 27 supported along the length of thetet'her pipe 22, and a fluid line forming a portion of the flexible "conduit 26. The produced liquid passes through the final stage separation equipment on the master station 20'where the pressure is normalized and dissolved gases are removed.The dead liquid is then transported to storage within the storage tank 17 through a line of the flexible conduit 26 connected to an axial passage in the interior of the tether pipe 22.
In the upper left-hand comer of FIG. 1 is illustrated the drilling of a well through a satellite base template, generally designated 28, which has been previously installed on a marine bottom along with a shipping Kline I8 for connecting a satellite station, when completed in conjunction with the template 28, with the storage tank I'I. A drill string 30 is suspended from above the surface from a semisubmersible drilling vessel 32 and extends through a blowout preventer stack 33 mounted on one of a plurality of upstanding well conductor pipes 34 forming a portion of the template 28. Illustrated in the lower portion of FIG. 1 is a manned submersible work vehicle, generally designated 36, of a type to be employed to assist in the subsea operations and for the dry transfer of personnel to the satellite station 10. The submersi ble work vehicle 36 has a pair of articulated arms 38 and 40 carrying a socket wrench 42 and a vise grip tool 44, respectively. The submersible work vehicle 36 is further equipped with a pivotable positioning motor 46 on each side (one shown) to assist in locating the submersible work vehicle 36 adjacent a satellite station I0 firstly when subsea operations are to be performed during the drilling operations and the intimes during maintenance and workover operations. A lower port 48 of the submersible work vehicle 36 is connected with a rear compartment (not shown) within the shell thereof to per mit a diver to be released at an installation site ifone should be Charles Ovid Baker, and Eugene L. Jones. and the references cited therein.
H0. 2 illustrates .a satellite station which is capable of being installed prior to completing any of the production wells through the ring 51 of the base template 28. The satellite body is held in the satellite base 28 by a central sleeve 250 depending from the lower end of the satellite body and automatic spring-loaded latches (not shown) over the upper end of the well conductor pipe of the water well 52. The latches can be disabled by a hydraulic pressure applied through the conduit 252 extending between a manifold 254, forming a portion of the framing of the base template 28, at the inner end, and a quick-disconnect coupling section 256, at the outer end. The outer end of the conduit is supported by a skeletal frame 258 I to displace the coupling section 256 outward of the well conduc tor pipes 34. The arrangement of the equipment within the satellite body 15 is described in detail in copending U.S. application, Ser. No. 740,783, filed Jun. 27, l968. The connector units 54 are not permanently attached to the satellite body 15 but instead are stabbed-over tubing nipples 260 extending vertically out of the upper end of the satellite body 15. When a well -is t o be completed through one of the upstanding well conductorpipes 34, a wellhead 14 is first mounted on the respective well conductor pipe 34. A connector unit 54 is later lowered from the surface to make the connection between the wellhead 14 and the satellite body 15. The connector unit 54 consists ofa curved tubing section 56 and a vertical lubricator section 58. The lower end of the lubricator section 58 is stabbed over the tubing (not shown) extending vertically out of the upper end of the wellhead 14, while the outer vertical free ends of the curved tubing section 54 stabs over the respective ones of the upstanding tubing nipples 260 extending out of the upper end of the satellite body 15. In this manner, with each connector section 54 being individually engaged between the wellhead l4 and the respective upstanding tubing nipples 260, greater tolerances can be allowed in installing the satellite body 15. Furthermore, an individual well can be produced through the satellite station 10 while the remaining wells are still being drilled and completed. The vertical orientation of the tubing nipples 260 extending vertically "into the satellite body IS'presents no problem, each of the TFL storage chambers 146 is reoriented into a vertical position so as to be coaxialwith the respective tubing nipples 260.
The vertical position ofthe storage chamber 146 permits the TFL tool 126 stored therewithin to move easily into respective tubing nipples 260 so that it can be pumped, under fluid pressure, through a full bend in the tubingsections 56 of the connector unit 54. Such a bend, of 180", will not present any insurmountable problems requiring only that the wells be spaced out far enough from the satellite body 15 to obtain a 5 foot radius bend in the conduit Stab-over connections, as discussed in this application, are more fully described in the Manning application Ser. No. 663,799.
Although the present invention has been described in connection with details of the speciflc embodimen'ts thereof. it is to be understood that such details are not intended to limit the scope of the invention. The terms and expressions employed are used in a descriptive and not a limiting sense and there is no intention of excluding such equivalents in the invention described as fall within the scope of the claims. Now having described the apparatus and methods herein disclosed, reference should be had to the claims which follow.
lclaim:
l. A method for exploiting subaqueous deposits of fluid minerals through a subsea production station, including the following steps: I
a. setting a base template, through which wells are to be drilled, on a marine bottom beneath the surface ofa body of water; drilling at least one well through said base template; completing said at least one well with a subsea wellhead supported on said base template;
d. releasably installing a production satellite body beneath the surface of said body of water on said base template; subsequent to step (d), fluidly connecting said at least one completed well with production facilities through said production satellite body by means of a substantially rigid connector unit releasably connected between said at least one subsea wellhead supported on said base template and said production satellite body installed on said base template;
. subsequent to connecting said at least one completed well with production facilities through said production satellite body, drilling at least one more well through said base template;
completing said at least one more well with a subsea wellhead supported on said base template; and
fluidly connecting said at least one more completed well with said production facilities through said subsea production satellite body by means of a substantially rigid connector unit releasably connected between said at least one more subsea wellhead supported on said base template and said production satellite body releasably installed on said base template.
2. A method for exploiting subaqueous deposits of fluid minerals through a subsea satellite station, as recited in claim 1, wherein said at least one well is drilled and completed, and" said production satellite body is installed, substantially from a floating station.
Patent No.
Inventor(s) James T. Dean Dated January 7 It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:
Column 1, line Column 2, line Column 3, line line line
line line line line
line
line
line
line
line
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"In areas" should begin a new paragraph.
lls lt [I2 1] should should should should should should should should should should should be be be be be be be .....34'--; "14" should be --14'- "54" should be "54'- -58'-- in both instances Signed and sealed this 8th da of June 1971 (SEAL) Attest:
EDWARD M.FLE'I GHER.JR. Atteating Officer WILLIAM E. SCHUYLER, JR Commissioner or Pateint s

Claims (2)

1. A method for exploiting subaqueous deposits of fluid minerals through a subsea production station, including the following steps: a. setting a base template, through which wells are to be drilled, on a marine bottom beneath the surface of a body of water; b. drilling at least one well through said base template; c. completing said at least one well with a subsea wellhead supported on said base template; d. releasably installing a production satellite body beneath the surface of said body of water on said base template; e. subsequent to step (d), fluidly connecting said at least one completed well with production facilities through said production satellite body by means of a substantially rigid connector unit releasably connected between said at least one subsea wellhead supported on said base template and said production satellite body installed on said base template; f. subsequent to connecting said at least one completed well with production facilities through said production satellite body, drilling at least one more well through said base template; g. completing said at least one more well with a subsea wellhead supported on said base template; and h. fluidly connecting said at least one more completed well with said production facilities through said subsea production satellite body by means of a substantially rigid connector unit releasably connected between said at least one more subsea wellhead supported on said base template and said prOduction satellite body releasably installed on said base template.
2. A method for exploiting subaqueous deposits of fluid minerals through a subsea satellite station, as recited in claim 1, wherein said at least one well is drilled and completed, and said production satellite body is installed, substantially from a floating station.
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Cited By (7)

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Publication number Priority date Publication date Assignee Title
DE2834033A1 (en) * 1977-08-05 1979-02-15 Seal Participants Holdings AUTOMATIC PIPE CONNECTION DEVICE
FR2520436A1 (en) * 1982-01-28 1983-07-29 Mobil Oil Corp UNDERWATER WELL HEAD CONNECTION GROUP AND METHOD OF INSTALLATION
US4442900A (en) * 1982-01-28 1984-04-17 Mobil Oil Corporation Subsea well completion system
US4905764A (en) * 1989-07-06 1990-03-06 William Laput Protective cover assembly for a well casing and a method of protecting a well casing
US20080093082A1 (en) * 2006-10-19 2008-04-24 Adel Sheshtawy Underwater seafloor drilling rig
US20110284235A1 (en) * 2010-05-03 2011-11-24 Millheim Keith K Safety System for Deep Water Drilling Units Using a Dual Blow Out Preventer System
US20160138358A1 (en) * 2008-04-24 2016-05-19 Cameron International Corporation Subsea Pressure Delivery System

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US3111692A (en) * 1960-12-14 1963-11-26 Shell Oil Co Floating production platform
US3261398A (en) * 1963-09-12 1966-07-19 Shell Oil Co Apparatus for producing underwater oil fields
US3322193A (en) * 1965-03-09 1967-05-30 Armco Steel Corp Underwater well installations
US3353364A (en) * 1962-04-26 1967-11-21 Gen Dynamics Corp Underwater well enclosing capsule and service chamber
US3384169A (en) * 1966-05-17 1968-05-21 Mobil Oil Corp Underwater low temperature separation unit
US3401746A (en) * 1965-12-10 1968-09-17 Mobil Oil Corp Subsea production satellite system
US3448799A (en) * 1961-08-09 1969-06-10 Cameron Iron Works Inc Well completion apparatus

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Publication number Priority date Publication date Assignee Title
US3111692A (en) * 1960-12-14 1963-11-26 Shell Oil Co Floating production platform
US3448799A (en) * 1961-08-09 1969-06-10 Cameron Iron Works Inc Well completion apparatus
US3353364A (en) * 1962-04-26 1967-11-21 Gen Dynamics Corp Underwater well enclosing capsule and service chamber
US3261398A (en) * 1963-09-12 1966-07-19 Shell Oil Co Apparatus for producing underwater oil fields
US3322193A (en) * 1965-03-09 1967-05-30 Armco Steel Corp Underwater well installations
US3401746A (en) * 1965-12-10 1968-09-17 Mobil Oil Corp Subsea production satellite system
US3384169A (en) * 1966-05-17 1968-05-21 Mobil Oil Corp Underwater low temperature separation unit

Cited By (10)

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