US3850237A - Mudline emergency shutoff for offshore wells - Google Patents

Mudline emergency shutoff for offshore wells Download PDF

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Publication number
US3850237A
US3850237A US19418771A US3850237A US 3850237 A US3850237 A US 3850237A US 19418771 A US19418771 A US 19418771A US 3850237 A US3850237 A US 3850237A
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United States
Prior art keywords
valve
casing hanger
casing
connector
passage
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
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English (en)
Inventor
A Ahlstone
J Bartos
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Vetco Gray LLC
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Vetco Offshore Industries Inc
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Application filed by Vetco Offshore Industries Inc filed Critical Vetco Offshore Industries Inc
Priority to US05194187 priority Critical patent/US3850237A/en
Priority to AU44879/72A priority patent/AU466775B2/en
Priority to GB3675672A priority patent/GB1386108A/en
Priority to GB3513774A priority patent/GB1386109A/en
Priority to NL7211842A priority patent/NL7211842A/xx
Priority to JP8877772A priority patent/JPS531722B2/ja
Priority to FR7232604A priority patent/FR2158189A1/fr
Priority to CA153,399A priority patent/CA965697A/en
Priority to DE19722252781 priority patent/DE2252781C3/de
Priority to IT5366272A priority patent/IT969497B/it
Priority to BR762772A priority patent/BR7207627D0/pt
Priority to US05/492,402 priority patent/US3937251A/en
Priority to CA210,780A priority patent/CA973089A/en
Publication of US3850237A publication Critical patent/US3850237A/en
Application granted granted Critical
Priority to NO772256A priority patent/NO772256L/no
Assigned to VETCO OFFSHORE, INC. A CORP OF DE reassignment VETCO OFFSHORE, INC. A CORP OF DE ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: VETCO INC.
Assigned to VETCO OFFSHORE INDUSTRIES, INC., A DE. CORP. reassignment VETCO OFFSHORE INDUSTRIES, INC., A DE. CORP. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: VETCO OFFSHORE, INC., A CORP. OF DE.
Assigned to CITIBANK, N.A., reassignment CITIBANK, N.A., SECURITY INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: VETCO GRAY INC., A DE. CORP.
Assigned to VETCO GRAY INC., reassignment VETCO GRAY INC., MERGER (SEE DOCUMENT FOR DETAILS). TEXAS, EFFECTIVE NOVEMBER 14, 1986 & DECEMBER 17, 1986. Assignors: GRAY TOOL COMPANY, A TX. CORP. (INTO), VETCO OFFSHORE INDUSTRIES, INC., A CORP. (CHANGED TO)
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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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
    • E21B34/00Valve arrangements for boreholes or wells
    • E21B34/02Valve arrangements for boreholes or wells in well heads
    • E21B34/04Valve arrangements for boreholes or wells in well heads in underwater well heads
    • 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
    • E21B33/04Casing heads; Suspending casings or tubings in well heads
    • E21B33/047Casing heads; Suspending casings or tubings in well heads for plural tubing strings
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/87153Plural noncommunicating flow paths

Definitions

  • the gate valve assembly includes automatically closing shutoff valves for each produc- [56] References and ing well zone held open by control fluid pressure.
  • Pro- UNITED STATES PATENTS duction tubing extends to the platform through the ex- 3,062,288 11/1962 Haeber 166/.6 tension o the valves of the subsurface gate valve 3,064,735 11/1962 Bauer et al.
  • valve devices have been incorporated in the well tubing or in the casing below the mudline, which are adapted to automatically close in the event of damage to the equipment at the top of the water.
  • Such subsurface shutoff valves are generally held open by fluid pressure supplied through control fluid conduits extending into the well from the platform. The use of such valves has heretofore posed problems due to the valves being unreliable and inoperative when needed.
  • a more reliable means of shutoff at the mudline has involved the use of a conventional christmas tree assembly at the subsurface.
  • the subsurface christmas tree has been attached to the usual subsurface wellhead equipment and includes gate valves having an actuator automatically operable to close the gate valve in an emergency or when desired.
  • gate valves having an actuator automatically operable to close the gate valve in an emergency or when desired.
  • subsurface christmas trees are not susceptible of installation within the well or casing extension, and, therefore, are exposed to the underwater environment.
  • the present invention relates to a subsurface or mudline shutoff valve assembly adapted to be lowered through and installed internally of the extension casing leading from the wellhead at the mudline to the platform at the top of the water.
  • the present invention involves a subsurface shutoff valve assembly, including gate valves incorporated in a body which is affixed to a connector adapted to be run downwardly through the extension casing and landed in the usual subsurface casing hanger.
  • the shutoff valve assembly has a shutoff valve or gate for each producing zone of the well.
  • Tubing is connected between the shutoff valve assembly and the platform at the top of the water to conduct production fluids to the surface.
  • shutoff valves or gates are held open by control fluid pressure supplied through control fluid conduits from the platform, and when control fluid pressure is bled off, for any reason, either purposely to shut in a selected well zone or due to an accident or damage to the platform or surface equipment, resulting in the loss of control fluid pressure which can maintain the subsurface or mudline valves open, the valves automatically close.
  • the connector to which the mudline valve assembly or christmas tree is attached, is landed in and latched to the casing hanger in such a manner as to also provide a seal between the various annular clearances between the outer conductor pipe or casing and the successively smaller inner strings of easing which extend downwardly into the well bore.
  • the connector may provide passages to which conduits may be connected, such conduits extending upwardly to the platform.
  • an intermediate connector member or adapter be employed to form the seal for the various annular spaces and to provide valves in the passages to be monitored, which are closed until the connector and mudline christmas tree are operatively in place in the casing hanger.
  • the mudline valve assembly and the connector are adapted to be lowered into position in the casing hanger on a conduit which provides within the outer casing extension an inner casing or pipe string, which also interconnects the mudline valve assembly with the platform, and which is adapted to house various production tubing strings leading from the mudline valve passages and, hence, from the various production tubing strings in the well, to the platform.
  • the invention also provides a running tool for lowering the mudline valve assembly and the connector downwardly through the outer casing extension into engagement with the casing hanger, the running tool constituting a riser made up of an appropriate number of joints each consisting of a latch head or box at one end and a complemental pin at the other end engageable to lock the joints together.
  • the inner casing extension and the required tubing extensions are incorporated in the running tool.
  • An object of the invention is to provide subsurface or mudline well shutoff apparatus, which can be run into the subsurface location through the usual conductor pipe or casing extension leading between the mudline wellhead equipment and a platform, and which is operable with certainty regardless of the nature of the emergency situation, fire accident, or the like, which may occur at the platform or above the mudline, resulting in the loss of control fluid pressure for holding the mudline valve apparatus open.
  • the mudline valve apparatus has, as a further object, the provision of a valve apparatus with fluid pressure responsive failsafe operating means which can be run within an extension pipe or casing of a diameter much smaller than the conventional subsurface christmas trees.
  • the subsurface christmas tree or valve assembly of the invention includes fluid pressure or hydraulic pressure responsive actuator means to close the various valves. More particularly, hydraulic fluid is displaced from a valve operator piston chamber when the valve is opened, the displaced fluid flowing into a power cylinder and displacing a spring loaded piston to store valve closing energy. When the force holding the valve open is relieved. i.e., upon reduction in the control fluid pressure, the compressed springs displace the piston in the power cylinder to force the hydraulic fluid to return to the operator piston chamber to act on the piston in the latter to force the valve to the closed position.
  • power fluid is also applicable to the power cylinder to augment the spring force, if necessary.
  • an over-ride actuator is employed to close the valve if the automatic actuator fails.
  • a hydraulic link valve operating means enables the assembly to be very compact, and, for example, a solid block valve assembly can be provided which will fit within the customary 20 inch casing extension or conductor pipe which extends from the conventional mudline casing hanger to the platform at the top of the water.
  • FIG. 1 is an elevation showing a typical offshore well drilling and producing platform, with an extension casing interconnected between the usual christmas tree on the platform and the subsurface well head equipment;
  • FIGS. 2a through 2d together constitute a vertical section, as taken on the line 22 of FIG. 1, with certain of the parts shown in elevation, showing the mudline christmas tree installed in the casing hanger, FIGS. 2b through 2d being, respectively, successive downward continuations of FIG. 2a;
  • FIG. 3 is a horizontal section, as taken on the line 3-3 of FIG. 2a;
  • FIG. 4 is a horizontal section, as taken on the line 4-4 of FIG. 2a, showing a shutoff gate valve in an open condition;
  • FIG. 5 is a horizontal section, as taken on the line 55 of FIG. 2b;
  • FIG. 6 is a view in vertical section genenrally corresponding to FIG. 20, but showing a modified connector landed in the mudline casing hanger;
  • FIG. 7 is a top plan of a riser joint employed to provide the extension means from the subsurface apparatus to the platfonn;
  • FIG. 8 is a vertical section as taken on the line 8-8 of FIG. 7.
  • a platform P is supported on legs or pilings L which extend downwardly through a body of water and into the earth at the so-called mudline M.
  • a well W has been drilled into the earth and an outer string of casing C has been set in the well W and, as will be later described, inner casing strings are suspended from subsurface or mudline wellhead apparatus including a housing 10.
  • a casing extension or conductor pipe extension 11 extends upwardly from the housing to a typical christmas tree 12 through which the flow of well fluids is controlled by the usual christmas tree valves, as is well known.
  • All of the well drilling, completion, and production procedures are conducted through the conductor pipe or casing 11, the housing 10 and the outer well casing C, including the running of successive inner strings of well casing into smaller diameter well bores, cementing the inner casing strings in the well, perforating the casing, treating and testing the formation and the production from one or more subsurface well zones.
  • the conductor pipe extension or casing I l is threadedly connected at 13 to a coupling 14, which has a radial shoulder 15 seating on the upper end of the housing 10 and a skirt 16 which extends downwardly into and is threadedly connected at 17 internally of the upper end of the housing 10. Between the skirt 16 of the coupling 14 and the housing 10 is a side ring seal 18. The outer well casingC is threadedly connected at 19 to the lower end of the housing 10.
  • the housing 10 is adapted to receive and support casing hanger means 20 for a first inner string of casing C1, which is adapted to extend downwardly through the outer casing C into the well bore.
  • the casing hanger 20 includes a tubular body 21, to the lower end of which the casing string C1 is connected, as at the threaded joint 22.
  • a split, resiliently expansible hanger ring 23 is disposed about the body 21 and is longitudinally confined between upper and lower retainer rings 24, 25 which are threaded on the body. Within the retainer rings 24 and 25, the body is vertically slotted at 26 and 27 to allow the fluid within the well to be upwardly displaced by cement as the casing string C1 is being cemented in place.
  • the split hanger ring 23 On the outer periphery of the split hanger ring 23, it has a circumferentially extended groove 28 defined; between a downwardly and outwardly sloping upper shoulder 29 and a lower, downwardly and outwardly sloping shoulder 30.
  • the housing 10 Internally, the housing 10 has a circumferentially extended flange having an upper, outwardly and upwardly sloping shoulder 31, above which is a circumferentially extended groove 32 and below which is a circumferentially extended groove 33, these grooves being adapted to receive portions 34 and 35, respectively, of the hanger ring 23 when the hanger body is lowered to a I position at which the ring 23 is expansible, so that the hanger ring shoulder 29 engages the housing shoulder 31 to support or hang the casing C1 in the well.
  • the outer profile of the hanger ring 23 is such that the portions 34 and 35 of the lock ring engage opposing portions of the pipe 11, the coupling 14, and the housing 10 and prevent expansion of the hanger ring 23, except when the ring 23 is expansible into the grooves 32 and
  • the hanger body 21 at its upper end has a bore 36 having an internal left-hand thread 37 adapted to receive a complementally threaded portion of a running tool (not shown), so that the casing string C1 and the hanger 20 can be lowered into the housing, to the position shown, and the running tool then removed.
  • a running tool not shown
  • a casing hanger 40 supports a second inner string of casing C2 within the body 21 of the hanger 20.
  • the hanger 40 has an expansible, resilient hanger ring 41 which is engageable with a shoulder 42 in the hanger body 21, like the hanger ring 23 previously described, when the hanger 40 is lowered by a running tool engaged with the internally threaded upper end of the hanger 40.
  • a third inner string of casing C3 is shown in the illustrated structure as being supported by an inner casing hanger 43 which, like the casing hangers previously de scribed, has an expansible, resilient hanger ring 44 engageable with the hanger shoulder 45 provided within the hanger 40.
  • the upwardly extending portion 46 of the casing hanger 43 has the usual internal thread-47 adapted to receive a running tool (not shown) by which the inner casing string C3 and the hanger 43 may be run into the well, and, after recovery of the justmentioned running tool and completion of the usual cementing, perforating and testing operations, a tubing hanger 48 having a tubular outer body or sleeve 49 is run into the casing hanger 43.
  • the tubing hanger body 49 has an external thread 50 engageable with the internal thread 47 on the upper portion 46 of the hanger 43, and an outwardly extending shoulder 51 on the body tubing hanger 49 seats on the upper end of the portion 46 of the casing hanger 43.
  • a suitable seal 52 is provided between the casing hanger portion 46 and the tubing hanger body 49.
  • At the upper end of the tubing hanger body 49 it has an internal thread 53 for receiving a running tool (not shown).
  • an inner tubing hanger body 54 Within the outer tubing hanger body or sleeve 49 is an inner tubing hanger body 54 having an upper body section 55 disposed within the larger diameter upper portion of the outer body 49, and a reduced diameter portion 56 of the inner body 54 is disposed within the reduced diameter lower portion of the outer body 49.
  • cup member 57 At the lower end of the inner tubing hanger body 54, which extends below the lower end of the outer sleeve 49, is a cup member 57 of enlarged diameter which is threaded at 58 onto the lower end of the inner body 54.
  • the cup 57 has a lower landing surface or outwardly projecting shoulder 59 adapted to land on the landing shoulder 60 within the body portion 46 of the casing hanger 43.
  • tubing hangers are adapted to support a number of tubing strings and to provide flow passages for the various producing well zones, and the various tubing strings may be run in different manners.
  • one tubing string T1 is threaded at its upper end 61 into a threaded bore of the inner body 54 and establishes communication from one well zone to a flow passage 62 extending longitudinally through the body 54.
  • the tubing string Tl thus, is run into the well casing C3 on the tubing hanger 48.
  • the tubing hanger 48 supports a second tubing string T2.
  • This tubing string T2 is threaded at its upper end 63 into the lower end of a tubular tubing hanger mandrel 64 having an outwardly projecting landing shoulder 65 adapted to land on an internal shoulder 66 provided in a bore 67 which extends longitudinally through the inner tubing hanger body 54.
  • tubing T2 is suspended in the well casing C3 and establishes communication between a second well zone and a flow passage 68, which extends longitudinally through the hanger assembly.
  • the tubing mandrel 64 is adapted to be locked down in the inner tubing hanger body 54 by means of a split, expansible, resilient latch ring 69 carried in a circumferential groove 70 in the mandrel 64 above the shoulder 65 and below an externally threaded running neck 71, which is adapted to receive a running tool (not shown).
  • such running tools are adapted to hold the lock ring 69 in an initially contracted condition in the groove 70, but when the running tool is removed, after landing of the tubing mandrel 64 on the body shoulder 66, the lock ring 69 is released to expand to the illustrated locking position.
  • a suitable side ring seal 72 is interposed therebetween.
  • Another side ring seal 73 is interposed between the tubing mandrel 64 and the body 54 in the bore 67.
  • the wellhead apparatus comprising the various casing hangers and the tubing hanger, as thus far described, is all of a known type and is illustrative of the subsurface structure to which the present mudline shutoff valve apparatus is applicable.
  • the preferred shutoff apparatus of the invention comprises intermediate means 75 for providing a seal isolating the various annular clearances between the casing hangers and the respective casings C, C1, C2 and C3, such means 75 also providing a landing seat for connector means 76 which are adapted to be lowered into the housing 10 and to connect the flow passages in the subsurface wellhead apparatus with corresponding passages through the mudline valve means 77 and extension means 78 for connecting the mudline valve and its passages with the surface equipment or christmas tree 12 on the platform.
  • the intermediate means 75 comprises a body 80 of annular form having a lower, outer shoulder 81 adapted to abut with the upper end of the body 21 of the outer casing hanger 20.
  • a body 80 of annular form having a lower, outer shoulder 81 adapted to abut with the upper end of the body 21 of the outer casing hanger 20.
  • an annular outer, sealingand anchoring skirt or flange 82 having an outer side ring seal 83 engageable within the inner surface 36 of the upper end of the casing hanger body 21.
  • the skirt 82 has an external thread 84 engageable in the casing hanger body thread 37.
  • the body 80 has a running neck 85 provided with an external thread 86 engageable by a running tool (not shown) by which the body 80 is adapted to be lowered through the conductor pipe extension 11 and threaded into the upper end of the casing hanger body 21, the running tool being removed when the body 80 is tightly engaged at its shoulder 81 with the hanger body 21.
  • a running tool (not shown) by which the body 80 is adapted to be lowered through the conductor pipe extension 11 and threaded into the upper end of the casing hanger body 21, the running tool being removed when the body 80 is tightly engaged at its shoulder 81 with the hanger body 21.
  • Packing means are provided for effecting a seal between the housing 10 and the outer periphery of the body 80.
  • This packing means comprises an elastomeric ring 87 disposed about an outer cylindrical wall 88 of the body 80 below a downwardly facing shoulder 89.
  • a setting ring 90 has an upstanding annular flange 91 surrounding the wall 88 and opposed to the shoulder 89. The setting ring 90 extends about and is axially shiftable on a cylindrical section 92 of the body 80.
  • This body section 92 has an outwardly opening groove 93 which receives the inner periphery of a split retainer ring 94, which is expansible outwardly into a ring carrying inner groove 95 in the setting ring 90 upon endwise assembly of the setting ring 90 over the lower end of the body section 92, the retainer ring 94 then expanding into the body groove 93 to prevent the setting ring from dropping off of the body section 92.
  • the setting ring abuts with the upper end of the casing hanger body 21, the setting ring is forced upwardly with respect to the body 80 so that the elastomeric seal ring 87 is axially and radially deformed into sealing engagement with the body wall 88 and the opposing inner wall of the housing 10.
  • the body 80 Centrally of the body 80 is a bore 96 for receiving the upper end portion 46 of the casing hanger 43, the body 80 having suitable side ring seals 97, 98 engageable with the casing hanger portion 46.
  • the intermediate body 80 Depending from the intermediate body 80 and spaced radially inwardly from the sealing and anchoring skirt 82 is another sealing skirt 98a which extends downwardly into the upper portion of the casing hanger 40.
  • Another side ring seal 99 is provided between the skirt and the opposing wall of the casing hanger 40.
  • the body has a port leading from the annular space 101 between the outer casing C and the first inner casing string C1 to a valve chamber 102 in the intermediate body 80.
  • a port 103 leads from the annular space 104 between the casing C1 and the second inner string of casing C2 to another valve chamber 104a in the intermediate body 80.
  • a further port 105 leads from the annular space 106 between the casing C2 and the inner string of casing C3 to a further valve chamber 107 in the intermediate body,
  • In the respective valve chambers 102, 104a and 107 are normally closed poppet valve assemblies respectively designated 108, 109 and 110.
  • Each valve assembly 108, 109 and 110 has a valve stem 111 adapted to be shifted to a normally closed position by a spring 112, so that when the connector means 76 is not in position, as shown, as will be later described, the valves 108, 109 and 110 prevent communication between the various annular spaces below the sealing means or intermediate member 80 and the conductor pipe extension 11 above the body 80.
  • tubing plugs (not shown) could be employed to close off communication through the tubing hanger 48 between the productive well zones and the conductor pipe extension 11.
  • the connector means 76 more specifically comprises an annular elongated body adapted to be landed in the intermediate body member 80 on the upper end of the running neck 85 of the body or intermediate member 80.
  • the connector body 120 has a landing flange or shoulder 121 provided on a collar 122 which is threaded at 123 onto the body 120.
  • Extending upwardly from the collar 122 is an outer, annular flange 124 spaced outwardly from the outer wall 125 of the body 120 to accommodate an annular wedge ring 126 therebetween.
  • the wedge ring 126 has an upper inclined surface 129 engageable with a lower inclined surface 130 on the latch ring 128 for causing outward expansion of the lock ring 128 in response to upward movement of the wedge ring 126.
  • a suitable number of push rods 131 are carried by the landing collar 122 in angularly spaced relation, the push rods having enlarged upper ends 132 vertically reciprocable in bores in the landing collar 122 and having reduced lower ends 133 which normally depend through reduced bores in the collar 122, so as to engage the upper end of the running neck 85 on the intermediate body 80 as the connector 76 is being lowered into place.
  • the conductor extension 11 is rotated to finally make up the threaded connection 17 and to dispose the lower end 17a of the coupling sleeve 16 in a notch 17a in the upper, outer portion of the lock ring to positively hold the connector means 76 against upward movement until and unless the threaded connection 17 is backed off to allow retraction of the lock ring 128.
  • the body 120 of the connector means 76 has a lower reduced diameter, cylindrical end portion 134 which, when the body 120 is landed, extends downwardly into the annular space between the outside wall of the upper neck portion 46 of the casing hanger 43 and an opposing cylindrical wall 135 of a first counterbore in the intermediate body 80.
  • An inner side ring seal 136 and an outer side ring seal 137 are carried by the end portion 134 of the body 120 and engage the opposing walls of the casing hanger portion 46 and the intermediate body 80, thereby cooperating with the seal 97 therebelow to confine fluid in an annular chamber 138 into which fluid from the annular space 106 passes through the poppet valve 110 when the latter is open, as shown by engagement of the lower end face 134a of the body portion 134 with the valve stem.
  • An intermediate cylindrical portion 139 of the body 120 has an enlarged diameter to fit within a second, larger counterbore 140 in the intermediate body 80, the portion 139 having a side ring seal 141 engaged in the counterbore 140 and cooperating with the seal 137 therebelow to confine fluid in an annular chamber 142 defined by the bodies 80 and 120. Fluid is admitted to the chamber 142 through the poppet valve 109, from the annular space 104 between casings C1 and C2, when the intermediate body is landed and the lower end face 139a of the body portion 139 contacts the stem of the valve 109, as shown.
  • the connector body 120 has a further enlarged cylindrical portion 143 provided with a side ring seal 144 engageable in the running neck 85 of the intermediate body 80 and cooperating with the seal 141 on the body portion 139 to confine fluid in an annular chamber 145. Fluid is admitted to the chamber'145fromthe annular space 101 between the casings C1 and C when the lower end face 143a of the body portion 143 engages the stern of valve 108.
  • the body 120 of the connector means 76 has an attachment flange to which a lower attachment flange 151 of the subsurface or mudline shutoff valve means 77 is connected by a number of circumferentially spaced fasteners 152.
  • the top wall 153 of the body 120 has an annular, upwardly opening groove 154, and the opposing lower face 155 of the flange 151 has an opposing, downwardly opening annular groove 156.
  • An annular seal 157 is disposed in the grooves 154 and 156 to seal off the central region of the connection between the mudline valve means 77 and the connector means 76.
  • Adaptor means are provided within the region defined within the seal ring 157 to'establish communication between the flow passages 62, 68 and 74 provided by the tubing hanger 48 and corresponding passages 62a, 68a and 74a which extend upwardly through the mudline valve means 77.
  • adaptor tubes two of which are designated 160 and 161, respectively, in FIGS. 2b and 2c, are employed to bridge the joint between the mudline valve means 77 and the connector means 76.
  • the adaptor tube 160 is engaged in a threaded bore 162 in the end of the body 150 and has an end portion 163 which extends into a bore 164 in the end 151 of the mudline valve means 77, bridging the meeting plane of the end faces 153 and 155.
  • Side ring seals 165 and 165a carried by the end 163 of the adaptor tube 160 effect a seal within the respective bores 162 and 164.
  • the adaptor tube 160 has a downward extension 166 provided with an external side ring seal 167 engageable in an enlarged bore 168 in the tubing hanger inner body 54, constituting an extension of the flow passsage 62 in the latter.
  • the adaptor tube 161 is engaged in a threaded bore 167 in the end of the body 150 and has an end portion 168 which extends into a bore 169 in the end 151 of the mudline valve means 77, bridging the meeting plane of the end faces 153 and 155.
  • Side ring seals 170 and 171 carried by the end portion 168 of the adaptor tube 161 effect a seal within the respective bores 167 and 169.
  • the adaptor tube 161 has a downward extension 172 slidably engageable in the upper body portion 55 of the tubing hanger body 54, the extension 172 having a bore 173 in which is a side ring seal 174 externally engageable with the upper end of the running neck 71 of the tubing mandrel 64, and an enlarged end bore 175 in the extension 172 accommodates the thread on the running neck 71.
  • an adaptor tube similar to the adaptor tube 160 is employed to establish a connection between the flow passage 74 in the tubing hanger body 54 and the passage 74a in the mudline valve means 77.
  • Means are also provided to establish a fluid connection at the ends 153 and 155 for passages 138a, 142a and 145a which, as previously indicated, extend through the connector body 120 from the respective chambers 138, 142 and 145, which are defined between the connector body 120 and the intermediate body 80.
  • a fluid connection is provided between the passage 145a and a port 145b in the lower end flange 151 of the mudline valve means 77 through an insert sleeve 1450 having suitable side ring seals 145d and 145e, which engage in aligned bores 145]" and 145g in the respective end flanges 150 and 151.
  • the mudline valve means 77 is shown as comprising an elongated body through which the passages 62a, 68a and 74a extend longitudinally from the tubing adaptor sleeves 160 and 161, as seen in FIGS. 2b and 4. Disposed at vertically spaced locations within the valve body 190 is a plurality of shutoff valve means 191, a respective one of which is shown in detail in FIG. 4. One of the valve means 191 is adapted to either permit or shut off flow through one of the passages 62a, 68a or 74a.
  • valve means 191 comprises an elongated chamber 193 intersected by the passage 68a and in which a valve gate or slide 194 is reciprocable between the position shown in FIG. 4, at which the port 195 in the slide is aligned with the flow passage 68a in the body, and the alternate position at which the unported section of the slide will close the passage 68a through the body.
  • Operating means are provided for the valve, so that the valve slide is normally maintained in the illustrated position to allow well fluids to flow upwardly through the flow passage in the body, but the valve slide is shifted to the alternate closed position in the event of an emergency, such as damage to the platform, loss of production fluid pressure, or other event.
  • valve slide 194 is actuated to the open position by a fluid pressure responsive actuahead 202 having a rod seal 201a, and is connected at I 203 to the piston 200 so that the piston, the rod and the slide are movable as a unit.
  • a head seal 202a prevents communication between the valve chamber 193 and the chamber 199.
  • the cylinder 198 is retained in a laterally opening bore 204 in the body 190 by a split, internally threaded ring 205, which seats in an annular groove 206 and forms passage means 207 between cylinder seals 206a and 206b for the flow of pressure fluid into and from the cylinder 109 at the outer side of the piston 200, the passage 207 being connected in a suitable manner with an inlet conduit 207a (FIG.. 3) which extends to the platform for connection to a control pressure source, as is well known in the operation of existing well valves.
  • the valve body 190 has other ports 207 b and 207c for conducting control fluid to and from the other valves 191.
  • the power piston and cylinder means 197 includes a bore or piston chamber 208 which has a composite head 209 secured therein by a split lock ring 210.
  • An inner head portion 209a has a seal 20% in the bore 208, and a head retainer portion 2090 is threaded on a stem 209d, so that the inner head portion and the retainer portion may be removably interengaged with the lock ring 21.0.
  • the head 209 includes a suitable filler opening 211 having a back flow preventing valve 212 and a passage 213 establishing communication between the piston chamber 208 and the actuator piston chamber 199 at the inner side of the actuator piston 200.
  • the body 190 has a bleed port 190a communicating with the chamber 199 between the piston 200 and the head 202.
  • Reciprocable in the piston chamber 208 is a piston 214 having a rod 215 reciprocable in a spring seat and guide 216, which seats at the base of a spring chamber 217.
  • the spring chamber 217 are a number of coiled compression springs 218 which normally act to bias the piston 214 toward the head 209.
  • fluid is displaced by piston 200 from the chamber 199 through the passage 213 into the piston chamber 208 and acts on the piston 214 to move it in a direction which compresses the springs 218.
  • valve slide 194 So long as the actuating fluid pressure is maintained in the actuator piston chamber 199 and overcomes the springs 218, then the valve slide 194 will remain in the open position, but, if for any reason actuator fluid pressure in the piston chamber 199 is exhausted, then the springs 218 will urge the piston toward the normal position to displace fluid back through the passage 213 into the actuator piston chamber 199, and the valve slide will be moved to its closed position.
  • the valve apparatus includes means for positively assuring that the valve slide 194 will be shifted to the closed position upon release of control fluid pressure from the actuator piston chamber 199, as a precaution against the valve remaining inadvertently open.
  • the valve body 190 is provided with a supplemental pressure fluid port 220 communicating with the spring chamber 217 behind the piston 214. Pressure fluid applied through the port 220 can flow through suitable ports 221 in the piston guide and spring seat 216 to supplement the force of the spring 218, tending to displace fluid from the piston chamber 208 into the piston chamber 199 to move the valve slide to the closed position.
  • the valve may be positively closed even in the event of loss of fluid from the piston chamber 208 and 199.
  • the body 190 is bored at 222 to receive a cylinder 223 gen erally corresponding to the cylinder 198.
  • a piston chamber 224 having reciprocal therein a piston 224 carried on a rod 226, which extends through a rod seal 226a is a cylinder head 227 into engagement with the adjacent end of the valve slide 194.
  • a head seal 227a prevents communication between the piston chamber 224 and the valve chamber 193.
  • Pressure fluid may be admitted to the piston chamber 224 via passage means 228 provided in the cylinder 223 and in the mounting ring 229 betwen cylinder seals 229a and 22% engaged in the bore 222 of such passage means 228, being adapted to receive pressure fluid supplied from the platform.
  • the valve may be admitted to the piston chamber 224 via passage means 228 provided in the cylinder 223 and in the mounting ring 229 betwen cylinder seals 229a and 22% engaged in the bore 222 of such passage means 228, being adapted to receive pressure fluid supplied from the platform.
  • slide 194 may be, if desired, positively actuated to the closed position.
  • tubing strings 233, 234 and 235 are connected to the christmas tree 12, so that well production is controlled by the usual surface christmas tree, and the subsurface or mudline valve apparatus is operative in the event of any emergency which may result from loss of control fluid pressure supplied to the respective actuators of the subsurface valves 191.
  • control pressure conduits and monitoring conduits would be run in as the subsurface valve assembly is being lowered on the extension means 78.
  • FIG. 6 A modified structure is shown in FIG. 6, wherein the intermediate member 880 is eliminated and the connector means 76 includes means for effecting a seal between the variouis casing annuli 101, 104 and 106.
  • the casing hangers 20, 40 and 43 and the tubing hanger 48 are the same as previously described.
  • the connector body 280 has a depending annular flange 282 providing a side ring seal 283 engageable within the cylindrical surface 36 within the upper end of the casing hanger body 21.
  • the connector body 280 has an inner depending flange 298 which carries an external side ring seal 299 engageable within the upper end of the casing hanger 40.
  • the latch ring 328 is resiliently expansible within an annular groove 325 defined between the upper end of the retainer 322 and a downwardly facing shoulder 327 on the body 280.
  • the latch ring 328 has an external profile comprising an annular groove 400 and a downwardly facing shoulder 401, there being an upper shoulder 402 on the latch ring 328. This profile is such that the latch ring 328 will expand outwardly upon being lowered through the coupling 14, and when opposed by the companion profile of the housing 10, which includes the inwardly and upwardly sloping upper face 403 of an annular rib 404.
  • the coupling 14 is similarly made up tight after the body 280 has been landed so that the final turning of the coupling 14 on the thread 17 moves the lower end of the coupling 14 into holding engagement with the upper shoulder 402 on the latch ring 328.
  • Various other latch arrangements may also be employed, as are well known in the art.
  • the extension means is adapted to be made up of a suitable number of riser joints 500 so constructed that each joint is connectible endwise to another joint to provide all of the necessary tubular conduits, including the outer casing 531 and the various inner strings of tubing, such as the tubing strings 533, 534 and 535.
  • Each joint 500 at its lower end, has a downwardly opening box 501 adapted to either fit upon the upstanding neck 230 of the subsurface valve body 190 or to mate with another joint, as will be described below.
  • a suitable side ring seal 502 is carried internally of the box 501 and engages with the outer cylindrical wall 503 of the neck 230 above an outwardly tapered section 503a.
  • the skirt 504 of the box 501 has an internal annular groove 505 in which is disposed a split, resilient lock ring 506 having an upwardly and inwardly inclined wall 507 and a downwardly and inwardly inclined upper wall 50, whereby the ring 506 is expansible over the upper end of the valve body neck 230 and engageable in a correspondingly formed groove 509 extending circumferentially in the outer body wall of the valve body neck 230 below the tapered section 503a.
  • a suitable number of spring-loaded plungers 510 Disposed about the box 501 is a suitable number of spring-loaded plungers 510, the inner ends of which extend into the grooves 505 and engage the outer periphery of the lock ring 506 to bias the ring inwardly.
  • the box 501 carries a suitable number of bosses 511 threaded to receive a radially shiftable ringdeforming screw 513, the inner end of which engages a pad 514 so that the screw may be rotated by engagement of a tool receiving end 515 with an appropriate turning tool to positively force the lock ring 506 into the groove 509.
  • ring connectors are well known.
  • the upper end of the valve body neck 230 is provided with sockets 516 to receive the lower ends of tubing stabbing subs 517, which are provided with suitable side ring seals 518 engageable with the walls of the sockets 516.
  • the outer casing 531 is welded at 519, or otherwise affixed to the box 501, and the inner tubings 533, 534 and 535 are welded, as at 520, or otherwise connected to the stabbing subs 517.
  • the casing 531 and the resepctive tubings 533, 534 and 535 may be of any convenient length to provide a joint 500 which can be conveniently handled.
  • a circular retainer plate 528 is retained by suitable fasteners 529, the plate having openings 530 for the upper ends of the receptacles 525, and the plate engaging peripheral ribs 531a on the receptacles 525 to hold the receptacles in place on the shoulders 524.
  • the pin member 521 has a configuration conforming to the internal configuration of the box member 501, previously described, so that an extension joint 500 is readily connectible to a similar extension joint by inserting a pin end 521 into a box end 501.
  • an outwardly opening annular groove 540 adapted to receive a lock ring 506 of a companion box 501 upon interconnection of the extension joints.
  • the pin 521 has a tapered section corresponding to the section 503a of the valve neck 231, and above the section 541 is a cylindrical section 542 for sealing engagement by the ring seal 502 of a box 501.
  • the key 545 will engage the downwardly and outwardly flared lower face 547 of the box member 501, so that the pin and box cannot telescopically coengage until they are properly oriented and the key 545 is aligned with the keyway 546, at which time the stabbing subs 517 will be aligned with the receptacles 525.
  • extension joints 500 may be joined with ease, eliminating the need for separately making up the various tubing and casing strings as previously described, as is apparent.
  • the use of extension joints 500 also facilitates retrieval of the subsurface apparatus when necessary. It will also i be apparent that all of the necessary monitoring conduits, control pressure conduits, and other necessary pressure lines may be conveniently incorporated in the joints 500.
  • the joint pin ends 521 facilitate connection of the extension means 78 with the surface christmas tree 12.
  • a platform is at the surface of the water, well- I head equipment is located at the mudline, and a conductor pipe extension extends between the platform and the wellhead equipment: casing hanger means movable from the platform through the conductor pipe extension and incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff valve means movable from the platform through the conductor pipe extension and supported on said casing hanger means, extension conduit means adapted to extend through the conductor pipe extension from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member movable through the conductor pipe extension and shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means movable through the conductor pipe extension and adapted to hold said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure.
  • said production fluid conduit means and said extension conduit means having a plurality of conduits for production fluid from a plurality of well zones
  • said shutoff valve means including a plurality of said passages establishing communication between the respective conduit means and one of said valve members for opening and closing each of said passages.
  • control fluid pressure operated means comprising an actuator piston engaged with said valve member, a piston chamber in which said actuator piston is reciprocable, said means for moving said valve member to said second position including means responsive to movement of said actuator piston to move said valve member from said second position to said first position to store energy for returning said valve member to said second position from said first position.
  • control fluid pressure operated means comprising an actuator piston engaged with said valve member, a piston chamber in which said actuator piston is reciprocable, said means for moving said valve member to said second position including means responsive to movement of said actuator piston to move said valve member from said second position to said first postion to store energy for returning said valve member to said second position from said first position, and supplemental means for actuating said valve member to said second position 5.
  • said control fluid pressure operated means comprising an actuator piston engaged with said valve member, a piston chamber in which said actuator piston is reciprocable, said means for moving said valve member to said second position including means responsive to movement of said actuator piston to move said valve member from said second position to said first position to store energy for returning said valve member to said second position from said first position, and supplemental means for actuating said valve member to said second position, said supplemental means including means for supplying fluid pressure to said power piston chamber to augment the said energy storing means.
  • connector means interposed between said shutoff valve means and said casing hanger means, said connector means having latch means interfitting with said casing hanger means when said connector means and said shutoff valve means are lowered into said casing hanger means through said conductor pipe extension.
  • shutoff valve means comprising a valve chamber intersected by said passage, and a valve gate slidable in said chamber between said first and second positions.
  • said shutoff valve means comprising a valve chamber intersected by said passage, a valve gate slidable in said chamber between said first and second positions
  • said control fluid pressure operated means comprising an actuator piston having a rod connected with said valve gate, a piston chamber in which said actuator piston is reciprocable, said means for moving said valve member to said second position including means responsive to movement of said actuator piston to move said valve gate from said second position to said first position to store energy for returning said valve gate to said second position from said first position.
  • said shutoff valve means comprising a valve chamber intersected by said passage, a valve gate slidable in said chamber between said first and second positions
  • said control fluid pressure operated means comprising an actuator piston engaged with said valve gate, a piston chamber in which said actuator piston is reciprocable, said piston having a rod connected to said valve gate in said valve chamber
  • said means for moving said valve member to said second position including means responsive to movement of said actuator piston to move said valve gate from said second position to said first position to store energy for returning said valve gate to said second position from said first position, and supplemental means for actuating said valve member to said second position.
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure
  • production conduit means including a casing string for communicating with one well zone and at least one tubing string in said casing string for communicating with another well zone, said extension conduit means including an extension conduit for each of said well zones, said shutoff valve means having
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure, said control fluid pressure operated means comprising an actuator piston engaged with said valve member, a piston chamber in which said actuator piston is reciprocable, said means for moving said valve member to said second position including a power piston, a piston chamber in which said power piston
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure, said control fluid pressure operated means comprising an actuator piston engaged with said valve member, a piston chamber in which said actuator piston is reciprocable, said means for moving said valve member to said second position including means responsive to movement of said actuator piston to move said valve member from
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure
  • said casing hanger means including means for hanging a plurality of casing strings in the well and defining an annular space between adjacent casing strings, and including passage means communicating with said annular space and extensible to the platform to enable monitoring of the pressure
  • monitoring valve means in said passage means for enabling pressurization of said annular space when said monitoring valve means are closed and said monitoring of the pressure in said annular space when said monitoring valve means are open.
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into thewell from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure, connector means interposed between said shutoff valve means and said casing hanger means, said connector means having latch means interfitting with said casing hanger means when said connector means and said shutoff valve means are lowered into said casing hanger means through said
  • said casing hanger supporting an outer string of casing defining with the first-mentioned casing string an annular space therebetween, said communicator means forming a seal in said annular space, said connector means and said shutoff valve means also having pressure monitoring passage means opening into said annular space through said connector means.
  • said casing hanger supporting an outer string of casing defining with the first-mentioned casing string an annular space therebetween, said connector means forming a seal in said annular space, said connector means and said shutoff valve means also having pressure monitoring passage means opening into said annular space through said connector means, and normally closed valve means for closing said pressure monitoring passage means until said connector means is lowered into said casing hanger means, said normally closed valve means being opened when said connector means is lowered into said casing hanger means.
  • said casing hanger means supporting an outer string of casing defining with the firstmentioned casing string an annular space therebetween, said connector means forrning a seal in said annular space.
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure, said casing hanger means supporting in the well a casing string for communicating with one well zone,.and at least one tubing string in said casing string for communicating with another well zone, said extension conduit means including an extension conduit for each of said well zones
  • said casing hanger supporting an outer string of casing defining with the first-mentined casing string an annular space there between, said connector means forming aseal in said annular space, said connector means and said shutoff valve means also having pressure monitoring passage means opening into said annular space through said connector means.
  • said casing hanger supporting an outer string of easing defining with the first-mentioned casing string an annular space therebetween, said connector means forming a seal in said annular space, said connector means and said shutoff valve means also having pressure monitoring passage means opening into said annular space through said connector means, and normally closed valve means for closing said pressure monitoring passage means until said connector means is lowered into said casing hanger means, said normally closed valve means being opened when said connector means is lowered into said casing hanger means.
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for moving said valve member to said second position upon reduction in control fluid pressure
  • said casing hanger means comprising a housing connected to the lower end of said conductor pipe extension, a first casing hanger for supporting a first inner casing string in the well, a second casing hanger supported by said first cas
  • said connector means also having pressure monitoring passage means communicating with said annular spaces and extensible to the platform to enable the monitoring of the pressure in said annular spaces.
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, and shutoff valve means having a passage communicating between said production fluid conduit means and said extension conduit means, a valve member shiftable between a first position at which said passage is open and a second position at which said passage is closed, control fluid pressure operated means for holding said valve member in said first position, and means for mov ing said valve member to said second position upon reduction in control fluid pressure
  • said casing hanger means comprising a housing at the lower end of said conductor pipe extension, a plurality of casing hanger bodies supported in said housing for supporting successive inner casing strings within said housing, and including connector means inter
  • said connector means including an intermediate connector member, one of said casing hanger bodies and said inermediate connector member having means for securing said intermediate connector member to said one of said casing hanger bodies, said intermediate connector member having passages opening into the spaces between said housing and said casing hanger bodies, normally closed valve means in the latter passages, an upper connector member engageable with said intermediate connector member when said upper connector member and said shutoff valve means are lowered through said conductor pipe extension, said upper connector member the innermost casing hanger body and said intermediate connector member having means forming chambers therebetween upon engagement of said upper connector member with said intermediate connector member, said chambers communicating with said passages in said intermediate connector members upon opening of said normally closed valve means, means on said upper connector member and said normally closed valve means for opening the latter upon engagement of said upper connector member with said intermediate member, and passages in said upper connector member communicating with said chambers and extensible to the platform to enable monitoring of the pressure in said chambers at the platform.
  • said connector means including an intermediate connector member, one of said casing hanger bodies and said intermediate connector member having means for securing said intermediate connector member to said one of said casing hanger bodies, said intermediate connector member having passages opening into the spaces between said housing and said casing hanger bodies, normally closed valve means in the latter passages, an upper connector member engageable with said intermediate connector member when said upper connector member and said shutoff valve means are lowered through said conductor pipe extension, said upper connector member, the innermost casing hanger body and said intermediate connector member having means forming chambers therebetween upon engagement of said upper connector member with said intermediate connector member, said chambers communicating with said passsages in said intermediate connector member upon opening of said normally closed valve means, means on said upper connector member and said normally closed valve means for opening the latter upon engagement of said upper connector member with said intermediate member, passages in said upper connector member communicating with said chambers and extensible to the platform to enable monitoring of the pressure in said chambers at the platform, and said upper connector member and said housing having latch means co
  • said connector means including a connector body engageable with said casing hanger bodies upon lowering of said connector body and said shutoff valve means into said housing, said connector body and said housing having latch means coengageable to hold said connector body in engagement with said casing hanger bodies upon engagement of said connector body with said casing hanger bodies, said connector body having pressure monitoring passages therein communicating with the spaces between said housing and said casing hanger bodies to enable monitoring at the platform of the pressure in said spaces.
  • casing hanger means incorporated in said wellhead equipment, production fluid conduit means extending into the well from said casing hanger means, shutoff means within said conductor pipe extension and supported on said casing hanger means, extension conduit means extending from said shutoff valve means to said platform, said shutoff valve means having a passage communicating

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  • Life Sciences & Earth Sciences (AREA)
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  • Mining & Mineral Resources (AREA)
  • Environmental & Geological Engineering (AREA)
  • Fluid Mechanics (AREA)
  • Physics & Mathematics (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Earth Drilling (AREA)
  • Excavating Of Shafts Or Tunnels (AREA)
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US05194187 1971-11-01 1971-11-01 Mudline emergency shutoff for offshore wells Expired - Lifetime US3850237A (en)

Priority Applications (14)

Application Number Priority Date Filing Date Title
US05194187 US3850237A (en) 1971-11-01 1971-11-01 Mudline emergency shutoff for offshore wells
AU44879/72A AU466775B2 (en) 1971-11-01 1972-07-24 Mudline emergency shutoff for offshore wells
GB3675672A GB1386108A (en) 1971-11-01 1972-08-07 Apparatus for producing an offshore well
GB3513774A GB1386109A (en) 1971-11-01 1972-08-07 Fluid pressure operated control valve apparatus
NL7211842A NL7211842A (it) 1971-11-01 1972-08-31
JP8877772A JPS531722B2 (it) 1971-11-01 1972-09-06
FR7232604A FR2158189A1 (it) 1971-11-01 1972-09-14
CA153,399A CA965697A (en) 1971-11-01 1972-10-06 Mudline emergency shutoff for offshore wells
DE19722252781 DE2252781C3 (de) 1971-11-01 1972-10-27 Unterwassereinrichtung mit einer einem Bohrlochkopfgehäuse an der Gewässersohle zugeordneten Absperreinrichtung für Förderrohrstränge
IT5366272A IT969497B (it) 1971-11-01 1972-10-27 Arresto di emergenza della condotta del fango in mare aperto
BR762772A BR7207627D0 (pt) 1971-11-01 1972-10-31 Equipamento para perfurar pocos maritimos dotado de interruptores de emergencia na linha de lama
US05/492,402 US3937251A (en) 1971-11-01 1974-07-29 Fluid pressure operated shut off valve apparatus
CA210,780A CA973089A (en) 1971-11-01 1974-10-04 Mudline emergency shutoff for offshore wells
NO772256A NO772256L (no) 1971-11-01 1977-06-27 Apparat for fremstilling av borehull i sj¦omr}der.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US05194187 US3850237A (en) 1971-11-01 1971-11-01 Mudline emergency shutoff for offshore wells

Related Child Applications (1)

Application Number Title Priority Date Filing Date
US05/492,402 Division US3937251A (en) 1971-11-01 1974-07-29 Fluid pressure operated shut off valve apparatus

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US3850237A true US3850237A (en) 1974-11-26

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Application Number Title Priority Date Filing Date
US05194187 Expired - Lifetime US3850237A (en) 1971-11-01 1971-11-01 Mudline emergency shutoff for offshore wells

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US (1) US3850237A (it)
JP (1) JPS531722B2 (it)
AU (1) AU466775B2 (it)
BR (1) BR7207627D0 (it)
CA (1) CA965697A (it)
FR (1) FR2158189A1 (it)
GB (2) GB1386108A (it)
IT (1) IT969497B (it)
NL (1) NL7211842A (it)
NO (1) NO772256L (it)

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US3961308A (en) * 1972-10-02 1976-06-01 Del Norte Technology, Inc. Oil and gas well disaster valve control system
US4038632A (en) * 1972-10-02 1977-07-26 Del Norte Technology, Inc. Oil and gas well disaster valve control system
US4405014A (en) * 1980-04-11 1983-09-20 Fmc Corporation Safety valve manifold system
US5873415A (en) * 1995-05-11 1999-02-23 Expro North Sea Limited Completion sub-sea test tree
US6367551B1 (en) 1998-12-18 2002-04-09 Abb Vetco Gray Incorporated Monobore riser
WO2003016674A1 (en) * 2001-08-17 2003-02-27 Kvaerner Oilfield Products Limited Annulus monitoring system
US20030094284A1 (en) * 2001-11-21 2003-05-22 Fenton Stephen Paul Internal connection of tree to wellhead housing
US20040003926A1 (en) * 2002-07-03 2004-01-08 Nivens Harold W. System and method for fail-safe disconnect from a subsea well
US20050126788A1 (en) * 2003-12-10 2005-06-16 Crozier Alistair D. Subsea wellhead assembly
US20090211762A1 (en) * 2008-02-27 2009-08-27 Vetco Gray Inc. Detachable Electrical Actuator
US20110140027A1 (en) * 2009-12-11 2011-06-16 Parks Glenn C Gate valve
CN110318712A (zh) * 2019-08-08 2019-10-11 淄博东华石油技术有限公司 一种采油专用井下液力马达

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US4138148A (en) * 1977-04-25 1979-02-06 Standard Oil Company (Indiana) Split-ring riser latch
USRE31645E (en) * 1977-08-01 1984-08-14 Regan Offshore International, Inc. Safety apparatus for automatically sealing hydraulic lines within a sub-sea well casing
GB2038906B (en) * 1978-12-13 1982-11-10 Vetco Inc Wellhead connection apparatus
JPS55134340U (it) * 1979-03-17 1980-09-24

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US3961308A (en) * 1972-10-02 1976-06-01 Del Norte Technology, Inc. Oil and gas well disaster valve control system
US4038632A (en) * 1972-10-02 1977-07-26 Del Norte Technology, Inc. Oil and gas well disaster valve control system
US4073341A (en) * 1972-10-02 1978-02-14 Del Norte Technology, Inc. Acoustically controlled subsurface safety valve system
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Also Published As

Publication number Publication date
JPS531722B2 (it) 1978-01-21
DE2252781B2 (de) 1976-08-19
DE2252781A1 (de) 1973-05-10
NL7211842A (it) 1973-05-03
AU466775B2 (en) 1975-11-06
NO772256L (no) 1973-05-03
FR2158189A1 (it) 1973-06-15
GB1386109A (en) 1975-03-05
JPS4852601A (it) 1973-07-24
AU4487972A (en) 1974-01-31
IT969497B (it) 1974-03-30
GB1386108A (en) 1975-03-05
BR7207627D0 (pt) 1973-09-18
CA965697A (en) 1975-04-08

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Effective date: 19861217