Thick oil thermal recovery well head sealing blowout preventer
阅读说明:本技术 一种稠油热采井口密封防喷装置 (Thick oil thermal recovery well head sealing blowout preventer ) 是由 赵振军 张志群 钟善斌 于 2020-08-13 设计创作,主要内容包括:本发明涉及稠油热采技术领域,公开了一种稠油热采井口密封防喷装置,包括光杆、盘根盒、应急静态密封盘根、转抽静态密封盘根和转抽动态密封盘根,盘根盒滑动装配在光杆上,包括从下至上依次设置的应急静态密封仓体、阀体、转抽静态密封仓体、动态密封仓体以及动态密封盘根压体,阀体内设有应急阀组件和转抽阀组件,动态密封盘根压体内设置有动态盘根压紧组件;应急静态密封盘根设置于应急静态密封仓体内;转抽静态密封盘根设置于转抽静态密封仓体内;转抽动态密封盘根设置于动态密封仓体内并通过动态盘根压紧组件压紧实现密封。本发明集井口防喷、密封、转抽、应急阀于一体,具有安全可靠,操作方便,成本低廉的优点。(The invention relates to the technical field of thickened oil thermal recovery, and discloses a thickened oil thermal recovery well head sealing blowout preventer, which comprises a polished rod, a packing box, an emergency static sealing packing, a rotary pumping static sealing packing and a rotary pumping dynamic sealing packing, wherein the packing box is assembled on the polished rod in a sliding manner and comprises an emergency static sealing cabin body, a valve body, a rotary pumping static sealing cabin body, a dynamic sealing cabin body and a dynamic sealing disc root pressing body which are sequentially arranged from bottom to top; the emergency static sealing packing is arranged in the emergency static sealing cabin body; the rotary pumping static sealing packing is arranged in the rotary pumping static sealing cabin body; the rotary pumping dynamic sealing packing is arranged in the dynamic sealing cabin body and is compressed by the dynamic packing compressing assembly to realize sealing. The invention integrates well mouth blowout prevention, sealing, rotary pumping and emergency valve into a whole, and has the advantages of safety, reliability, convenient operation and low cost.)
1. The utility model provides a viscous crude thermal recovery well head seals blowout preventer which characterized in that includes:
the top of the polished rod (1) is externally connected with a head knocking machine, and the bottom of the polished rod is connected with a well head;
the packing box (2) is assembled on the polished rod (1) in a sliding mode and comprises an emergency static sealing cabin body (21), a valve body (22), a rotary pumping static sealing cabin body (23), a dynamic sealing cabin body (24) and a dynamic sealing packing root pressing body (25), wherein the emergency static sealing cabin body, the valve body (22), the rotary pumping static sealing cabin body, the dynamic sealing packing root pressing body (24) and the dynamic sealing packing root pressing body (25) are sequentially arranged from bottom to top, an emergency valve assembly (3) and a rotary pumping valve assembly (4) are assembled in the valve body (22) in;
the emergency static sealing packing (6) is arranged in the emergency static sealing bin body (21) and the tightness of the emergency static sealing bin body is controlled by the emergency valve component (3);
the rotary pumping static sealing packing (7) is arranged in the rotary pumping static sealing cabin body (23) and the tightness of the rotary pumping static sealing cabin body is controlled by the rotary pumping valve component (4);
the rotary pumping dynamic sealing packing (8) is arranged in the dynamic sealing cabin body (24) and is compressed by the dynamic packing compressing assembly (5) to realize sealing.
2. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 1, wherein: the bottom of the emergency static sealing cabin body (21) is in sealing connection with a well head through a flange plate or a connecting screw thread.
3. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 2, wherein: an offset adjusting seat (26) is further arranged between the emergency static sealing cabin body (21) and the wellhead, a second righting block (102) corresponding to the polished rod (1) and the offset adjusting seat (26) is arranged inside the offset adjusting seat (26), and the top of the second righting block (102) is abutted to the bottom of the emergency static sealing packing (6).
4. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 1, wherein: the valve body (22) is provided with cavities corresponding to the emergency valve assembly (3) and the rotary pumping valve assembly (4) respectively and separated by a baffle (221), and the center of the baffle (221) is provided with a through hole corresponding to the polish rod (1).
5. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 1, wherein: the rotary pumping static sealing cabin body (23) and the dynamic sealing cabin body (24) are of an integrally formed structure, the rotary pumping static sealing cabin body and the dynamic sealing cabin body are separated through a first righting block (101), and an exhaust valve group (9) communicated with the atmosphere is arranged on the first righting block (101).
6. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 5, wherein: the exhaust valve group (9) comprises an exhaust valve seat (91) and an exhaust valve needle (92), wherein the exhaust valve needle (92) is hermetically and detachably assembled on the exhaust valve seat (91).
7. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 1, wherein: the emergency valve component (3) comprises a lower push block (31) corresponding to the emergency static sealing packing (6), a first wheel shaft (32), a first handle shaft (33) and an emergency hand wheel (34), the first wheel shaft (32) is assembled with the lower push block (31) in a transmission mode through threads, a first bevel gear piece (35) is arranged on the first wheel shaft, a first bevel gear (36) corresponding to the first bevel gear piece (35) is arranged at the end portion of the first handle shaft (33), a first sealing bin (37) is arranged between the first handle shaft (33) and the valve body (22), and sealing is achieved through a first fixed copper sleeve (38), a first pressing block (39) and an O-shaped sealing ring.
8. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 7, wherein: the rotary pumping valve component (4) comprises an upper pushing block (41) corresponding to the rotary pumping static sealing packing (7), a second wheel shaft (42), a second handle shaft (43) and a rotary pumping hand wheel (44), the second wheel shaft (42) is assembled with the upper pushing block (41) in a transmission mode through threads, a second bevel gear piece (45) is arranged on the second wheel shaft, a second bevel gear (46) corresponding to the second bevel gear piece (45) is arranged at the end portion of the second handle shaft (43), a second sealing bin (47) is arranged between the second handle shaft (43) and the valve body (22), and sealing is achieved through a second fixed copper sleeve (48), a second pressing block (49) and an O-shaped sealing ring.
9. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 8, wherein: first bevel gear piece (35) and second bevel gear piece (45) are spacing through a wheel piece fixed block (103) respectively, wheel piece fixed block (103) one end supports respectively on first bevel gear piece (35) and second bevel gear piece (45) that correspond, the other end is equipped with guide bar (104).
10. The heavy oil thermal recovery wellhead sealing blowout preventer as claimed in claim 1, wherein: dynamic packing compresses tightly subassembly (5) and includes spring holder (51), axis of rotation (52) and sets up spring (53) between the two, spring holder (51) are pressed and are being changeed the top of taking out dynamic seal packing (8), still are equipped with down gasket (54) between spring holder (51) and the commentaries on classics dynamic seal packing (8), axis of rotation (52) are sealed fixed through fastening bolt (55).
Technical Field
The invention relates to the technical field of thickened oil thermal recovery, in particular to a sealing blowout preventer for a thickened oil thermal recovery wellhead.
Background
In oil field oil extraction sites at home and abroad, oil pumping units (head-knocking machines) are widely used. The polished rod plays a role in transmitting power and sealing a well mouth by matching with the packing box in the oil extraction of the oil pumping unit, and the heavy oil extraction operation also comprises production periods such as a well mouth high-temperature gas injection period, a soaking self-blowout period and the like.
The thick oil is a high-viscosity and high-density crude oil, has quite complex components, generally contains asphaltene and colloid, is an important component in petroleum hydrocarbon energy, has high viscosity but is extremely sensitive to temperature, and most of oil fields in China adopt thick oil thermal recovery, namely high-temperature steam with the temperature of about 270 ℃ is injected into the underground by block well positions (dozens of wells) to melt the underground thick oil layer. The method is characterized in that high-temperature steam injection, well stewing and self-injection oil extraction are generally carried out firstly, then self-injection oil extraction is carried out, finally a bump machine is adopted for extraction and extraction, the block well mouth is completely sealed in the periods of high-temperature steam injection, well stewing and self-injection oil extraction, the high-temperature steam injection period is about 7 days generally, the well stewing period is about 15 days, the self-injection period is 30-40 days, the bump machine extraction and extraction are started after the self-injection is finished, and a packing box commonly used in the heavy oil thermal extraction operation at present has two types of polished rod plunger type and high-pressure glue injection type:
1) the packing box of the polished rod plunger type generally comprises three sealing cabin bodies, namely a first-stage cabin and a second-stage cabin which are in dynamic sealing operation for thermal recovery and dynamic sealing operation and a third-stage cabin which is in static sealing operation during high-temperature steam injection and stewing, wherein high-temperature rubber spiral opening packing is arranged in the first-stage cabin and the second-stage cabin, graphite opening packing which is at least resistant to 300 ℃ is arranged in the third-stage cabin, the graphite packing in the third-stage cabin is matched with a wellhead polished rod blowout prevention bolt to achieve wellhead sealing, the wellhead polished rod blowout prevention bolt lifts the polished rod by using the power of a head-knocking machine, the bolt head is pulled to a fixed conical wedge mouth in a hard mode, the vibration is very large in the operation process, the possibility of motor burning or damage is not noticed slightly, and the;
in the phase of extracting and pumping by a gouge engine, through a period of dynamic operation, when packing in three sealed warehouses is worn or aged and can not meet the sealing requirement, the packing needs to be replaced, and the concrete operation is as follows: pressure relief is needed, and the power of a head knock machine is adopted to forcibly lift the polish rod blowout prevention plunger to realize the sealing (but the sealing is often not completely sealed) of the bolt head at the bottom of the blowout prevention plunger and the tapered wedge port of the packing box, then the packing of the three sealed bins is quickly taken out at high temperature, the static sealed packing in the third-level bin is firstly replaced to be fully sealed, then the static sealed packing is sequentially replaced according to the sequence of the first second-level bin and the last first-level bin, after the replacement is finished, the static sealed packing in the third-level bin is loosened, the polished rod blowout-preventing plunger is simultaneously loosened, then the extraction and the suction are carried out (the packing can be replaced for a plurality of times in one day on some well mouths), if the polished rod blowout-preventing plunger cannot achieve sealing after being lifted, because the pressure of the wellhead is too high and the temperature is high, the packing can not be replaced, the packing can be replaced only after complete pressure relief and temperature reduction, the whole process is complicated, long time and serious influence on the extraction efficiency;
because the graphite packing of the three-stage bin is aged at high temperature, the packing is easy to carbonize to be broken, and after steam injection and stewing, the plug and the conical wedge can be adhered and locked frequently, cannot be taken off and cannot normally enter production, so that a worker needs to overhaul a well mouth at high temperature to separate the plug from the conical wedge, and the potential safety hazard of easy scalding exists;
2) the packing box of high pressure injecting glue formula adopts one-level storehouse and the sealed operation of second grade storehouse body developments, add the high temperature injecting glue storehouse body, the well head is sealed to high pressure high temperature injecting glue, the effect is relatively good, steam injection has been made things convenient for, the operation of each link of extraction and change packing, but according to every mouth of a well condition difference, most high pressure high temperature injecting glue time needs 3 hours to accomplish, less part well head needs 0.5 ~ 1 working day to accomplish more, and most can push away the polished rod bending at the injecting glue in-process, there is certain influence to sealed, the packing seal operating cycle of general one-level storehouse and second grade storehouse is different for 24 ~ 300 hours when in the in-service (some well heads probably appear changing the packing in one day several times), it is higher to change packing and the direct expense, packing is changed frequently and is influenced extraction efficiency, the cost also increases greatly simultaneously.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: aiming at the defects of the prior art, the viscous crude thermal recovery wellhead sealing blowout preventer is provided, the display in front of or behind a screen can be realized, the display space is infinite, the observation angle is flexible, the ultra-large picture can be displayed in the extremely small equipment space, the depth of field is ultra-deep, and the purpose of displaying the 3D image with low cost and high quality is realized.
In order to solve the technical problems, the technical scheme provided by the invention is as follows:
the utility model provides a viscous crude thermal recovery well head seals blowout preventer which characterized in that includes:
the top of the polished rod is externally connected with a head knocking machine, and the bottom of the polished rod is connected with a well head;
the packing box is assembled on the polish rod in a sliding mode and comprises an emergency static sealing cabin body, a valve body, a rotary pumping static sealing cabin body, a dynamic sealing cabin body and a dynamic sealing disc root pressing body which are sequentially arranged from bottom to top, wherein an emergency valve assembly and a rotary pumping valve assembly are assembled in the valve body in a sealing mode, and a dynamic packing pressing assembly is arranged in the dynamic sealing disc root pressing body;
the emergency static sealing packing is arranged in the emergency static sealing cabin body and the tightness of the emergency static sealing cabin body is controlled by the emergency valve component;
the rotary pumping static sealing packing is arranged in the rotary pumping static sealing cabin body and the tightness of the rotary pumping static sealing cabin body is controlled by a rotary pumping valve component;
the rotary pumping dynamic sealing packing is arranged in the dynamic sealing bin body and is compressed by the dynamic packing compressing assembly to realize sealing.
Furthermore, the bottom of the emergency static sealing cabin body is connected with a well head in a sealing mode through a flange plate or a connecting screw thread.
Furthermore, an offset adjusting seat is further arranged between the emergency static sealing cabin body and the wellhead, a second righting block corresponding to the polish rod and the offset adjusting seat is arranged inside the offset adjusting seat, and the top of the second righting block is abutted to the bottom of the emergency static sealing packing.
Furthermore, the valve body is provided with cavities corresponding to the emergency valve assembly and the rotary pumping valve assembly respectively and separated by a baffle, and the center of the baffle is provided with a through hole corresponding to the polish rod.
Furthermore, the rotary pumping static sealing cabin body and the dynamic sealing cabin body are of an integrally formed structure, the rotary pumping static sealing cabin body and the dynamic sealing cabin body are separated by a first righting block, and an exhaust valve group communicated with the atmosphere is arranged on the first righting block.
Further, the exhaust valve block includes an exhaust valve seat and an exhaust valve needle sealingly and detachably fitted on the exhaust valve seat.
Furthermore, the emergency valve component comprises a lower push block corresponding to the emergency static seal packing, a first wheel shaft, a first handle shaft and an emergency hand wheel, the first wheel shaft is assembled with the lower push block through threads in a transmission mode, a first bevel gear piece is arranged on the first wheel shaft, first bevel teeth corresponding to the first bevel gear piece are arranged at the end portion of the first handle shaft, a first seal bin is arranged between the first handle shaft and the valve body, and sealing is achieved through a first fixed copper sleeve, a first compression block and an O-shaped seal ring.
Furthermore, the rotary pumping valve component comprises an upper push block corresponding to the rotary pumping static sealing packing, a second wheel shaft, a second handle shaft and a rotary pumping hand wheel, the second wheel shaft is in transmission assembly with the upper push block through threads, a second bevel gear piece is arranged on the second wheel shaft, a second bevel gear corresponding to the second bevel gear piece is arranged at the end of the second handle shaft, a second sealing bin is arranged between the second handle shaft and the valve body, and sealing is achieved through a second fixed copper sleeve, a second compression block and an O-shaped sealing ring.
Furthermore, first bevel gear piece and second bevel gear piece are spacing through a wheel piece fixed block respectively, wheel piece fixed block one end supports respectively on corresponding first bevel gear piece and second bevel gear piece, the other end is equipped with the guide bar.
Further, developments packing compresses tightly the subassembly and includes spring holder, axis of rotation and sets up the spring between the two, the spring holder is pressed at the top of changeing the dynamic seal packing of taking out, still is equipped with down the gasket between spring holder and the changeing the dynamic seal packing of taking out, the axis of rotation passes through fastening bolt and seals fixedly.
Compared with the prior art, the invention has the advantages that:
the wellhead sealing blowout preventer integrates wellhead blowout prevention, sealing, rotary pumping and an emergency valve, has the functions of high-temperature blowout prevention sealing, rotary pumping emergency and deviation adjustment, has the characteristics of energy conservation, environmental protection, reduction of labor intensity of workers, high temperature resistance, cost saving and efficiency improvement, is safe and reliable to operate, is simple and convenient to operate, and greatly improves the extraction period;
meanwhile, the automatic wellhead seal for preventing accidental breakage of the polish rod is also arranged in the thin oil seal, blowout prevention, rotary pumping and emergency devices, so that oil gas is prevented from overflowing, the production environment of the oil field is protected, and the aim of cleaning the oil field is fulfilled.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Figure 1 is a schematic overall structure of an embodiment of the present invention,
figure 2 is a cross-sectional view of figure 1,
figure 3 is an enlarged view of a portion of i in figure 2,
figure 4 is a schematic view of the structure of the
figure 5 is a schematic structural diagram of the dynamic packing assembly 5,
figure 6 is a schematic view of the
the reference numbers are as follows:
the polish rod 1, the
Detailed Description
The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.
It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.
It is to be understood that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in the generic and descriptive sense only and not for purposes of limitation, as the term is used in the generic and descriptive sense, and not for purposes of limitation, unless otherwise specified or implied, and the specific reference to a device or element is intended to be a reference to a particular element, structure, or component. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.
Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.
In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Referring to fig. 1 to 6, the invention provides a heavy oil thermal recovery wellhead sealing blowout preventer, which comprises a polish rod 1, a
the polish rod 1 can transmit power and is matched with the
the
the
the emergency
as a preferable scheme, as shown in fig. 4, the
the working principle of the
the rotary pumping static sealing packing 7 is arranged in the rotary pumping static
as a preferable scheme, as shown in fig. 4, the rotary valve assembly 4 includes an up-push block 41 corresponding to the rotary static seal packing 7, a second axle 42, a second handle axle 43 and a rotary hand wheel 44, the second axle 42 is in transmission fit with the up-push block 41 through a screw thread, and is provided with a second bevel gear piece 45 thereon, the end of the second handle axle 43 is provided with a second bevel gear 46 corresponding to the second bevel gear piece 45, a second seal cabin 47 is provided between the second handle axle 43 and the
the working principle of the rotary valve assembly 4 is as follows: the rotating and pumping hand wheel 44 is rotated to drive the second conical teeth 46 to rotate, the second conical gear piece 45 corresponding to the second conical teeth 46 rotates, the second wheel shaft 42 also rotates, so that the push-up block 41 in transmission connection with the second wheel shaft 42 moves, the rotating and pumping static sealing packing 7 is extruded or loosened through the push-up block 41, the push-up block 41 extrudes the rotating and pumping static sealing packing 7 to achieve static sealing, the rotating and pumping hand wheel 44 is set to rotate clockwise to be closed and rotate anticlockwise to be opened according to habits; the normal extraction operation is in an open state, but the normal extraction operation is in a closed state when steam is injected, a well is closed and a packing is replaced;
the rotary pumping
as shown in fig. 5, the dynamic sealing disk
the emergency static sealing packing 6 and the rotary pumping static sealing packing 7 both adopt a wear-resistant perfluoroether rubber pad which can resist the temperature of-60 ℃ to 300 ℃;
as shown in fig. 3, the rotary-pumping static
as a preferable scheme, as shown in fig. 2, an offset adjusting
As shown in fig. 4, the first bevel gear piece 35 and the second bevel gear piece 45 are respectively fixed in position by a wheel piece fixing block 103, one end of the wheel piece fixing block 103 abuts against the corresponding first bevel gear piece 35 and second bevel gear piece 45, and the other end is provided with a guide rod 104.
The bottom of the emergency static sealing
The working principle is as follows: the packing box is assembled at a wellhead in a sealing manner, the bottom of a polished rod 1 is inserted into a well, the top of the polished rod is connected with a head-knocking machine, an
after the self-blowing is finished, the
the well head gets into normal production operation and adopts and takes out the operation, and through periodic production operation, polished rod 1 is great with changeing the dynamic seal packing 8 dynamic operation wearing and tearing of taking out, changes to take out dynamic seal packing 8 and just need change when can not reach sealed, and concrete change step is as follows:
after the machine is stopped and power is cut off, the rotary pumping hand wheel 44 is rotated clockwise, the static sealing packing 7 is compressed and pumped by the push-up block 41 to realize sealing, whether the sealing is completely realized is checked, and the rotary pumping dynamic sealing packing 8 is replaced after the
anticlockwise screw out dynamic packing compresses tightly subassembly 5, takes out old commentaries on classics and takes out dynamic seal packing 8, will be new change take out dynamic seal packing 8 screw in polished rod 1 get into the dynamic
When an accident happens or the rotary pumping dynamic sealing packing 8 is replaced, the
the replacement of the emergency static sealing packing 6 is carried out in annual wellhead overhaul and maintenance (the replacement of the quality degree of the emergency static sealing packing 6 is checked).
Through field test: the running period of the emergency static seal packing 6 is 14000 hours or so;
the running period of the rotary pumping static sealing packing 7 is about 8000 hours;
the running period of the rotary pumping dynamic sealing packing 8 is about 700-1500 hours;
the operation is safe and convenient in the whole overproduction operation, and each link is simple and practical.
The wellhead sealing blowout preventer disclosed by the invention is sleeved into the polished rod 1 without adding any equipment, and then is connected with a wellhead, so that the installation can be completed within 10 minutes generally, and the installation is simple;
in the using process, the mounting connection of a well head is not required to be changed, when steam injection soaking well is entered, the rotary pumping can be closed to enter high-temperature gas injection soaking well by only slightly rotating the pumping hand wheel 44, the emergency device can be closed by slightly rotating the emergency hand wheel 34 under the special emergency condition of the well head, and after the high-temperature gas injection soaking well is ended, the extraction operation can be entered by opening the rotary pumping valve assembly 4, so that the operation is convenient and practical;
during the extraction operation, the dynamic
the rotary pumping static
the emergency static sealing
in the production operation:
compared with the traditional mode that the polished rod 1 is lifted by the power of the head knocking machine, the dynamic sealing packing 8 of the rotary pumping is replaced by plunger type sealing and glue injection type sealing, the process is complex, the field operation time for replacing the packing is long (generally 0.5-1 working day or longer, the packing is replaced once every 6-7 days from the previous operation condition), the stability and the sealing performance are poor, the labor intensity is high, the potential safety hazard exists, and the operation personnel can be scalded at any time during high-temperature operation.
The novel blowout-preventing sealing rotary pumping valve and emergency valve deviation-adjusting integrated packing box is adopted, so that the pumping efficiency is improved, the stability is good, the operation and maintenance cost is low, the energy is saved, the environment is protected, no potential safety hazard exists, the efficiency is greatly improved in the operation process, particularly on the rotary pumping dynamic sealing packing 8, and at present, the operation time for replacing the rotary pumping dynamic sealing packing 8 is completed within 5 to 10 minutes (through field test, the field operation can be completed from skilled workers and unskilled workers);
this equipment has been through field application:
install change on this equipment and take out 8 operating cycles of dynamic seal packing and reach 1500 hours operations (this equipment fixing back, it is sealed to have done the current packing of installation and directly pack into, change and take out, the test of emergency valve operation experiment, the current packing seal cycle has improved the operating duration of at least 800 hours), the life of emergent static seal packing 6 and change and take out static seal packing 7 all is 8000 ~ 14000 hours (the well head overhauls once every year, corresponding well head maintenance, it is sealed, change and take out, emergency valve also can maintain or change emergent static seal packing 6).
The equipment has direct running cost: the operation of each well per year needs about 6-9 rotary pumping dynamic sealing packing sets with the cost of about 2200 yuan, and about 7 rotary pumping static sealing packing sets with the cost of 400 yuan, namely 2600 yuan per well per year;
the comprehensive cost of the packing box product used in the existing oil field is set to be 1, compared with the use cost of the packing box product, the comprehensive cost of the packing box product used in the oil field is set to be 0.2, and the cost is greatly reduced;
in conclusion, the wellhead sealing blowout preventer integrates wellhead blowout prevention, sealing, rotary pumping and an emergency valve, and has the advantages of safety, reliability, convenience in operation and low cost.
The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.
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