CA2280581C - Composite pumping tree with integral shut-off valve - Google Patents
Composite pumping tree with integral shut-off valve Download PDFInfo
- Publication number
- CA2280581C CA2280581C CA 2280581 CA2280581A CA2280581C CA 2280581 C CA2280581 C CA 2280581C CA 2280581 CA2280581 CA 2280581 CA 2280581 A CA2280581 A CA 2280581A CA 2280581 C CA2280581 C CA 2280581C
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- CA
- Canada
- Prior art keywords
- housing section
- blow
- out preventer
- tree
- valve
- Prior art date
- 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
Links
- 238000005086 pumping Methods 0.000 title claims abstract description 24
- 239000002131 composite material Substances 0.000 title description 7
- 241000191291 Abies alba Species 0.000 claims abstract description 7
- 238000004519 manufacturing process Methods 0.000 claims description 14
- 239000012530 fluid Substances 0.000 claims description 11
- 229910000831 Steel Inorganic materials 0.000 claims description 5
- 239000010959 steel Substances 0.000 claims description 5
- 230000000712 assembly Effects 0.000 claims 2
- 238000000429 assembly Methods 0.000 claims 2
- 230000000750 progressive effect Effects 0.000 description 2
- 238000005266 casting Methods 0.000 description 1
- 238000005553 drilling Methods 0.000 description 1
- 238000005242 forging Methods 0.000 description 1
- 238000003780 insertion Methods 0.000 description 1
- 230000037431 insertion Effects 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 239000003129 oil well Substances 0.000 description 1
Classifications
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21B—EARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
- E21B33/00—Sealing or packing boreholes or wells
- E21B33/02—Surface sealing or packing
- E21B33/03—Well heads; Setting-up thereof
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (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)
- Valve Housings (AREA)
- Multiple-Way Valves (AREA)
Abstract
A unitary pumping tree is provided for forming part of a wellhead assembly Christmas tree. The tree integrates a bottom connector, shut-off valve, hydraulically actuated blow-out preventer, mechanically actuated blow-out preventer, flow tee and top connector.
Description
2 The present invention relates to a composite pumping tree for use in a
3 production wellhead assembly. The tree is formed using a unitary steel body.
4 The body has appropriate side openings for integrating a shut-off valve, blow-out preventer and flow tee with bottom and top connectors, to form the tree.
6 The bottom connector is adapted to connect with a tubing head and the top 7 connector is adapted to connect with an upper segment of a production 8 Christmas tree, of which the composite tree forms a lower part.
BACKGROUND OF THE INVENTION
11 The present invention has to do with wellhead equipment used in 12 connection with pumping oil wells. More particularly, as previously stated, it 13 relates to a composite pumping tree. By "composite" is meant that the 14 functional components referred to herein as top and bottom connectors, shut-off valve, production blow-out preventer and flow tee are integrated into a 16 single steel body. The term "pumping tree" is used to generically encompass 17 the body or housing, its component openings, its axial fluid flow bore and the 18 functional components if they are mounted in the body openings.
19 For many years, a typical conventional production wellhead assembly for a pumping well was as shown in Figure 1 and comprised, from the bottom 21 up: a flanged casing bowl attached to the well casing; a flanged tubing head 22 having an internal hanger from which the well tubing string was suspended;
a 23 tubing head adapter having a flanged connection at its bottom end and a 24 threaded connection of smaller diameter at its top end; a production blow-out preventer ("B.O.P.'-') body having top and bottom threaded connections and 1 including side openings for receiving the B.O.P. ram components; a flow tee 2 body having a threaded or flanged side opening for connecting with a flow 3 line; and additional components (not shown), such as a polish rod stuffing box 4 and the rotary drive assembly for rotating the well's rod string to power a downhole progressive cavity pump. (The overall assembly extending up from 6 the top of the tubing head to the drive assembly is commonly referred to as 7 the production Christmas tree.) 8 The production Christmas tree, as described in the previous paragraph, 9 is designed for use in connection with a pumping well. Since the tree is subjected only to relatively low pressure in service, its parts are relatively thin 11 walled.
12 There are some pumping wells which, when shut in, can build up 13 significant pressure at the wellhead due to the presence of gas in the 14 produced fluid. When the rod string is pulled from the well, to service the downhole pump, it would be desirable to have a gate valve in place between 16 the tubing head and the production tree, to provide a positive and reliable 17 shut-off.
18 In the case of a naturally flowing well, where greater pressures would 19 be expected, one or more high pressure shut-off valves are stacked between the tubing head and the flow tee and the production B.O.P. is usually not 21 included.
1 A recent improvement in the production wellhead art is disclosed in 2 Canadian Patent 2,197,584, issued July 7, 1998 to the present applicant.
3 More particularly this patent teaches integrating the tubing head adapter, 4 B.O.P. and flow tee into a unitary structure or tree by forging or casting a single steel body or structure forming an axial vertical fluid flow bore and 6 further comprising, from the bottom up:
7 ~ a bottom connector or connection sized and designed to connect 8 and seal with the top connection of the tubing head;
9 ~ a B.O.P. housing section forming side openings connecting with the axial bore, for receiving the ram components of a B.O.P.;
11 ~ a flow tee housing section forming a side opening and providing 12 means for connecting with a flow line; and 13 ~ a top connector sized and designed to connect with the upper 14 section of the Christmas tree (typically with the stuffing box).
In a preferred form, the generally tubular '584 tree has a generally cylindrical 16 outer configuration, thereby ensuring a relatively thick body side wall of 17 consistent thickness.
18 The '584 tree has been characterized by certain advantages, more 19 particularly:
~ the unitary tree is significantly shorter and stronger as a result of 21 removing the threaded or flanged connections between the 22 functional components. This is particularly useful in the case where 23 a vibrating offset rotary drive assembly is mounted on the top end of 24 the Christmas tree for rotating the rod string of a downhole progressive cavity pump; and 1 ~ the thick side wall of the cylindrical body is amenable to drilling 2 additional openings from the side, for example for insertion of an 3 instrumentation string to measure bottom hole temperature or 4 pressure. This feature permits the tree to be customized to meet the particular needs of a customer.
8 In accordance with the invention, the tree body of the '584 patent has 9 been lengthened and formed to provide an additional side opening, beneath the B.O.P. openings, for receiving a shut-off valve. Thus a shut-off valve and 11 a production B.O.P. are combined in a pumping tree to provide a shut off 12 capability whether the rod string is parted at the polish rod or not.
13 While a typical 2-9/16 inch shut-off gate valve having flanged 14 connections might have a length in the order of 16.6 inches, we find that the same valve components, when mounted into the tree body opening, will add 16 only about 6 inches to the body length. The resulting composite pumping tree 17 is still short enough and strong enough to permit a rod string rotary drive 18 assembly to be mounted and operated thereon satisfactorily.
19 In a preferred embodiment, the blow-out preventer used immediately above the shut-off valve is hydraulically operated. This has led to a problem 21 because the B.O.P. operator (which protrudes externally of the body) and 22 shut-off valve hand wheel can interfere if stacked directly above each other.
23 This difficulty has been resolved by staggering or relatively off setting them 24 about the perimeter of the body.
6 The bottom connector is adapted to connect with a tubing head and the top 7 connector is adapted to connect with an upper segment of a production 8 Christmas tree, of which the composite tree forms a lower part.
BACKGROUND OF THE INVENTION
11 The present invention has to do with wellhead equipment used in 12 connection with pumping oil wells. More particularly, as previously stated, it 13 relates to a composite pumping tree. By "composite" is meant that the 14 functional components referred to herein as top and bottom connectors, shut-off valve, production blow-out preventer and flow tee are integrated into a 16 single steel body. The term "pumping tree" is used to generically encompass 17 the body or housing, its component openings, its axial fluid flow bore and the 18 functional components if they are mounted in the body openings.
19 For many years, a typical conventional production wellhead assembly for a pumping well was as shown in Figure 1 and comprised, from the bottom 21 up: a flanged casing bowl attached to the well casing; a flanged tubing head 22 having an internal hanger from which the well tubing string was suspended;
a 23 tubing head adapter having a flanged connection at its bottom end and a 24 threaded connection of smaller diameter at its top end; a production blow-out preventer ("B.O.P.'-') body having top and bottom threaded connections and 1 including side openings for receiving the B.O.P. ram components; a flow tee 2 body having a threaded or flanged side opening for connecting with a flow 3 line; and additional components (not shown), such as a polish rod stuffing box 4 and the rotary drive assembly for rotating the well's rod string to power a downhole progressive cavity pump. (The overall assembly extending up from 6 the top of the tubing head to the drive assembly is commonly referred to as 7 the production Christmas tree.) 8 The production Christmas tree, as described in the previous paragraph, 9 is designed for use in connection with a pumping well. Since the tree is subjected only to relatively low pressure in service, its parts are relatively thin 11 walled.
12 There are some pumping wells which, when shut in, can build up 13 significant pressure at the wellhead due to the presence of gas in the 14 produced fluid. When the rod string is pulled from the well, to service the downhole pump, it would be desirable to have a gate valve in place between 16 the tubing head and the production tree, to provide a positive and reliable 17 shut-off.
18 In the case of a naturally flowing well, where greater pressures would 19 be expected, one or more high pressure shut-off valves are stacked between the tubing head and the flow tee and the production B.O.P. is usually not 21 included.
1 A recent improvement in the production wellhead art is disclosed in 2 Canadian Patent 2,197,584, issued July 7, 1998 to the present applicant.
3 More particularly this patent teaches integrating the tubing head adapter, 4 B.O.P. and flow tee into a unitary structure or tree by forging or casting a single steel body or structure forming an axial vertical fluid flow bore and 6 further comprising, from the bottom up:
7 ~ a bottom connector or connection sized and designed to connect 8 and seal with the top connection of the tubing head;
9 ~ a B.O.P. housing section forming side openings connecting with the axial bore, for receiving the ram components of a B.O.P.;
11 ~ a flow tee housing section forming a side opening and providing 12 means for connecting with a flow line; and 13 ~ a top connector sized and designed to connect with the upper 14 section of the Christmas tree (typically with the stuffing box).
In a preferred form, the generally tubular '584 tree has a generally cylindrical 16 outer configuration, thereby ensuring a relatively thick body side wall of 17 consistent thickness.
18 The '584 tree has been characterized by certain advantages, more 19 particularly:
~ the unitary tree is significantly shorter and stronger as a result of 21 removing the threaded or flanged connections between the 22 functional components. This is particularly useful in the case where 23 a vibrating offset rotary drive assembly is mounted on the top end of 24 the Christmas tree for rotating the rod string of a downhole progressive cavity pump; and 1 ~ the thick side wall of the cylindrical body is amenable to drilling 2 additional openings from the side, for example for insertion of an 3 instrumentation string to measure bottom hole temperature or 4 pressure. This feature permits the tree to be customized to meet the particular needs of a customer.
8 In accordance with the invention, the tree body of the '584 patent has 9 been lengthened and formed to provide an additional side opening, beneath the B.O.P. openings, for receiving a shut-off valve. Thus a shut-off valve and 11 a production B.O.P. are combined in a pumping tree to provide a shut off 12 capability whether the rod string is parted at the polish rod or not.
13 While a typical 2-9/16 inch shut-off gate valve having flanged 14 connections might have a length in the order of 16.6 inches, we find that the same valve components, when mounted into the tree body opening, will add 16 only about 6 inches to the body length. The resulting composite pumping tree 17 is still short enough and strong enough to permit a rod string rotary drive 18 assembly to be mounted and operated thereon satisfactorily.
19 In a preferred embodiment, the blow-out preventer used immediately above the shut-off valve is hydraulically operated. This has led to a problem 21 because the B.O.P. operator (which protrudes externally of the body) and 22 shut-off valve hand wheel can interfere if stacked directly above each other.
23 This difficulty has been resolved by staggering or relatively off setting them 24 about the perimeter of the body.
5 1 As a final preferred addition, the tree body can be formed to provide a 2 second pair of opposed B.O.P. component openings above the first pair and 3 beneath the flow tee opening. The ram components of a manually operated 4 B.O.P. are mounted into these openings. The resulting composite pumping tree is still sufficiently short and strong enough to permit a rod string rotary
6 drive assembly to be mounted and operated thereon satisfactorily.
7 _
8 DESCRIPTION OF THE DRAWINGS
9 Figure 1 is a side view of a wellhead for a pumping well comprising a conventional pumping tree formed of interconnected separate functional 11 components;
12 Figure 2 is a perspective view of a pumping tree in accordance with the 13 present invention, with some of the component parts exploded to show their 14 detail. The tree comprises a bottom connector for connection with a tubing head, a shut-off valve, a hydraulic production B.O.P., a manual production 16 B.O.P., a flow tee and a top connector for connection with a stuffing box (not 17 shown);
18 Figure 3 is a side view of the assembled tree of Figure 2;
19 Figure 4 is a top plan view of the tree of Figure 2;
Figure 5 is a side sectional view showing the body of the tree of Figure 21 2 with the functional components removed, with all bores/openings shown on 22 same orientation for simplicity;
23 Figure 5a is a plan view taken along the line A-A of Figure 5, showing 24 the integral hydraulic line of the hydraulic B.O.P.;
1 Figure 6 is a side sectional view showing a bleeder valve and 2 passageway for monitoring pressure between the hydraulic and manual 3 B.O. P.'s;
4 Figure 7 is a side sectional view showing the body of a tree employing only a single B.O.P.; and 6 Figure 8 is a side view showing the tree of Figure 2 incorporated into a 7 wellhead assembly. _ The pumping tree 1 comprises an integral body 2 formed as a single 11 piece of steel. It is generally tubular, having an axial, vertical fluid flow bore 3 12 extending therethrough. It is also generally cylindrical externally to provide a 13 body side wall 4 of generally consistent thickness, having a wall 14 thickness/bore diameter ratio in the range of 1 to 1 or greater.
The body 2 has a bottom connector 5 for connection with the flanged 16 top connection 6 of a tubing head 7. The bottom connector 5 is shown as a 17 studded down connection. However it can be a flanged connection, clamp-18 hub connection or rotatable flange connection as well. The face 8 of the 19 connector 5 forms a seal ring groove 9 extending around the bore 3, so that when a seal ring (not shown) is inserted and the connector 5 is tightened 21 against the tubing head connection 6, a fluid tight seal is obtained.
1 A valve housing section 10 extends up from and is integral with the 2 bottom connector 4. The section 10 forms a body cavity or opening 11 for 3 receiving a conventional gate valve 12. The opening 11 communicates with 4 the bore 3. The gate valve 12 is operative to open or close the bore 3, as required. Its hand wheel and bonnet assembly 13 protrude externally of the 6 body 2.
7 A first B.O.P. housing section 15 extends up from and is integral with 8 the valve housing section 10. The B.O.P. housing section 15 forms 9 diametrically aligned or opposed side openings 16 communicating with the bore 3. The side openings 16 are formed to receive the ram assembly 11 components 17 of a conventional hydraulically actuated B.O.P. 18. The 12 operator 19 of the B.O.P. 18 protrudes externally of the body 2.
13 The valve housing opening 11 and B.O.P. openings 16 are offset or 14 staggered so that the hand wheel and bonnet assembly 13 and B.O.P.
operator 19 do not interfere.
16 A second B.O.P. housing section 20 extends up from and is integral 17 with the first B.O.P. housing section 15. The housing section 20 forms 18 diametrically opposed side openings 21 communicating with the bore 3. The 19 side openings 21 are formed to receive the ram assembly components 22 of a conventional mechanically actuated B.O.P. 23.
21 The second B.O.P. openings 21 are offset relative to the first B.O.P.
22 openings 16.
1 A flow tee housing section 25 extends up from and is integral with the 2 second B.O.P. housing section 20. The flow tee housing section 25 forms 3 opposed side openings 26 communicating with the bore 3. Each of the side 4 openings 26 are shown having a studded connector 27 for connection with a flow line (not shown), through which well fluid is produced.
6 An internally threaded, studded top connector 28 extends up from and 7 is integral with the flow tee housing section 25, for connection with the stuffing 8 box.
9 From the foregoing it will be seen that by integrating functional components into a one-piece body and off-setting the body cavities, we have 11 been able to incorporate a shut-off valve in combination with two B.O.P.'s into 12 the pumping tree without exceeding an acceptable wellhead height.
13 In another feature, an integral bleeder valve system is provided in the 14 body side wall to test whether the bottom B.O.P. 18 is leaking and to return leaking fluid to the bore 3. More particularly, a passageway 30 extends from 16 the bore 3 from a point between the B.O.P.'s 18, 23 and connects back with 17 the bore above the second B.O. P. 23. A port 31 leads from the passageway 18 30 to the outer surface 32 of the body 2. A pressure gauge (not shown) can 19 be attached at the port 31 to monitor pressure in the passageway 30. A
second port 33 connects with the passageway 30 from the body surface 32 21 and a needle valve 34 is positioned therein to open or close the passageway.
22 As previously mentioned, any of a variety of known connections can be 23 substituted for the studded connections shown in the drawings.
12 Figure 2 is a perspective view of a pumping tree in accordance with the 13 present invention, with some of the component parts exploded to show their 14 detail. The tree comprises a bottom connector for connection with a tubing head, a shut-off valve, a hydraulic production B.O.P., a manual production 16 B.O.P., a flow tee and a top connector for connection with a stuffing box (not 17 shown);
18 Figure 3 is a side view of the assembled tree of Figure 2;
19 Figure 4 is a top plan view of the tree of Figure 2;
Figure 5 is a side sectional view showing the body of the tree of Figure 21 2 with the functional components removed, with all bores/openings shown on 22 same orientation for simplicity;
23 Figure 5a is a plan view taken along the line A-A of Figure 5, showing 24 the integral hydraulic line of the hydraulic B.O.P.;
1 Figure 6 is a side sectional view showing a bleeder valve and 2 passageway for monitoring pressure between the hydraulic and manual 3 B.O. P.'s;
4 Figure 7 is a side sectional view showing the body of a tree employing only a single B.O.P.; and 6 Figure 8 is a side view showing the tree of Figure 2 incorporated into a 7 wellhead assembly. _ The pumping tree 1 comprises an integral body 2 formed as a single 11 piece of steel. It is generally tubular, having an axial, vertical fluid flow bore 3 12 extending therethrough. It is also generally cylindrical externally to provide a 13 body side wall 4 of generally consistent thickness, having a wall 14 thickness/bore diameter ratio in the range of 1 to 1 or greater.
The body 2 has a bottom connector 5 for connection with the flanged 16 top connection 6 of a tubing head 7. The bottom connector 5 is shown as a 17 studded down connection. However it can be a flanged connection, clamp-18 hub connection or rotatable flange connection as well. The face 8 of the 19 connector 5 forms a seal ring groove 9 extending around the bore 3, so that when a seal ring (not shown) is inserted and the connector 5 is tightened 21 against the tubing head connection 6, a fluid tight seal is obtained.
1 A valve housing section 10 extends up from and is integral with the 2 bottom connector 4. The section 10 forms a body cavity or opening 11 for 3 receiving a conventional gate valve 12. The opening 11 communicates with 4 the bore 3. The gate valve 12 is operative to open or close the bore 3, as required. Its hand wheel and bonnet assembly 13 protrude externally of the 6 body 2.
7 A first B.O.P. housing section 15 extends up from and is integral with 8 the valve housing section 10. The B.O.P. housing section 15 forms 9 diametrically aligned or opposed side openings 16 communicating with the bore 3. The side openings 16 are formed to receive the ram assembly 11 components 17 of a conventional hydraulically actuated B.O.P. 18. The 12 operator 19 of the B.O.P. 18 protrudes externally of the body 2.
13 The valve housing opening 11 and B.O.P. openings 16 are offset or 14 staggered so that the hand wheel and bonnet assembly 13 and B.O.P.
operator 19 do not interfere.
16 A second B.O.P. housing section 20 extends up from and is integral 17 with the first B.O.P. housing section 15. The housing section 20 forms 18 diametrically opposed side openings 21 communicating with the bore 3. The 19 side openings 21 are formed to receive the ram assembly components 22 of a conventional mechanically actuated B.O.P. 23.
21 The second B.O.P. openings 21 are offset relative to the first B.O.P.
22 openings 16.
1 A flow tee housing section 25 extends up from and is integral with the 2 second B.O.P. housing section 20. The flow tee housing section 25 forms 3 opposed side openings 26 communicating with the bore 3. Each of the side 4 openings 26 are shown having a studded connector 27 for connection with a flow line (not shown), through which well fluid is produced.
6 An internally threaded, studded top connector 28 extends up from and 7 is integral with the flow tee housing section 25, for connection with the stuffing 8 box.
9 From the foregoing it will be seen that by integrating functional components into a one-piece body and off-setting the body cavities, we have 11 been able to incorporate a shut-off valve in combination with two B.O.P.'s into 12 the pumping tree without exceeding an acceptable wellhead height.
13 In another feature, an integral bleeder valve system is provided in the 14 body side wall to test whether the bottom B.O.P. 18 is leaking and to return leaking fluid to the bore 3. More particularly, a passageway 30 extends from 16 the bore 3 from a point between the B.O.P.'s 18, 23 and connects back with 17 the bore above the second B.O. P. 23. A port 31 leads from the passageway 18 30 to the outer surface 32 of the body 2. A pressure gauge (not shown) can 19 be attached at the port 31 to monitor pressure in the passageway 30. A
second port 33 connects with the passageway 30 from the body surface 32 21 and a needle valve 34 is positioned therein to open or close the passageway.
22 As previously mentioned, any of a variety of known connections can be 23 substituted for the studded connections shown in the drawings.
Claims (7)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A pumping tree for use in a production wellhead assembly, comprising, in sequence from the bottom to the top:
a body formed as a single piece of steel and forming a vertical bore extending axially therethrough, said body comprising:
a bottom connector for connecting with the top connection of a tubing head, a valve housing section forming a side opening, communicating with the bore, for receiving a valve for controlling fluid flow through the bore, a first blow-out preventer housing section forming opposed side openings, communicating with the bore, for receiving ram assemblies of a blow-out preventer, a flow tee housing section forming at least one side opening, communicating with the bore, for producing well fluid, and a top connector for connecting to an upper segment of a Christmas tree.
a body formed as a single piece of steel and forming a vertical bore extending axially therethrough, said body comprising:
a bottom connector for connecting with the top connection of a tubing head, a valve housing section forming a side opening, communicating with the bore, for receiving a valve for controlling fluid flow through the bore, a first blow-out preventer housing section forming opposed side openings, communicating with the bore, for receiving ram assemblies of a blow-out preventer, a flow tee housing section forming at least one side opening, communicating with the bore, for producing well fluid, and a top connector for connecting to an upper segment of a Christmas tree.
2. The pumping tree as set forth in claim 1 wherein:
at least two of the valve housing section opening, blow-out preventer housing section openings and flow tee opening are staggered around the periphery of the housing.
at least two of the valve housing section opening, blow-out preventer housing section openings and flow tee opening are staggered around the periphery of the housing.
3. The pumping tree as set forth in claim 2 wherein:
the body is generally cylindrical in configuration and thick-walled to provide a wall thickness/bore diameter ratio in the range of 1 to 1.
the body is generally cylindrical in configuration and thick-walled to provide a wall thickness/bore diameter ratio in the range of 1 to 1.
4. The pumping tree as set forth in claim 3 comprising:
a shut-off valve positioned in the opening of the valve housing section;
blow-out preventer components operatively positioned in the openings of the first blow-out preventer housing section; and means for securing a flow line to the flow tee housing section at the section's opening for removing produced well fluid.
a shut-off valve positioned in the opening of the valve housing section;
blow-out preventer components operatively positioned in the openings of the first blow-out preventer housing section; and means for securing a flow line to the flow tee housing section at the section's opening for removing produced well fluid.
5. The pumping tree as set forth in claim 2 wherein the body comprises:
a second blow-out preventer housing section positioned between the first blow-out preventer housing section forming opposed side openings, communicating with the bore, for receiving the ram assemblies of a blow-out preventer.
a second blow-out preventer housing section positioned between the first blow-out preventer housing section forming opposed side openings, communicating with the bore, for receiving the ram assemblies of a blow-out preventer.
6. The pumping tree as set forth in claim 5 comprising:
a shut-off valve positioned in the opening of the valve housing section;
hydraulically operated blow-out preventer components operatively positioned in the openings of the first blow-out preventer housing section;
mechanically operated blow-out preventer components operatively positioned in the openings of the second blow-out preventer housing section;
and means for securing a flow line to the flow tee housing section at the section's opening for removing produced well fluid.
a shut-off valve positioned in the opening of the valve housing section;
hydraulically operated blow-out preventer components operatively positioned in the openings of the first blow-out preventer housing section;
mechanically operated blow-out preventer components operatively positioned in the openings of the second blow-out preventer housing section;
and means for securing a flow line to the flow tee housing section at the section's opening for removing produced well fluid.
7. The pumping tree as set forth in claim 6 wherein:
the body is generally cylindrical in configuration and thick-walled to provide a wall thickness/bore diameter ratio in the range of 1 to 1.
the body is generally cylindrical in configuration and thick-walled to provide a wall thickness/bore diameter ratio in the range of 1 to 1.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA 2280581 CA2280581C (en) | 1999-08-20 | 1999-08-20 | Composite pumping tree with integral shut-off valve |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA 2280581 CA2280581C (en) | 1999-08-20 | 1999-08-20 | Composite pumping tree with integral shut-off valve |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CA2280581A1 CA2280581A1 (en) | 2001-02-20 |
| CA2280581C true CA2280581C (en) | 2002-02-12 |
Family
ID=4164011
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA 2280581 Expired - Lifetime CA2280581C (en) | 1999-08-20 | 1999-08-20 | Composite pumping tree with integral shut-off valve |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA2280581C (en) |
Families Citing this family (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US7000888B2 (en) | 2004-03-29 | 2006-02-21 | Gadu, Inc. | Pump rod clamp and blowout preventer |
| US7552765B2 (en) | 2006-01-27 | 2009-06-30 | Stream-Flo Industries Ltd. | Wellhead blowout preventer with extended ram for sealing central bore |
| US7673674B2 (en) | 2006-01-31 | 2010-03-09 | Stream-Flo Industries Ltd. | Polish rod clamping device |
-
1999
- 1999-08-20 CA CA 2280581 patent/CA2280581C/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| CA2280581A1 (en) | 2001-02-20 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| EEER | Examination request | ||
| MKEX | Expiry |
Effective date: 20190820 |