CN211201919U - Turbine fracturing equipment - Google Patents
Turbine fracturing equipment Download PDFInfo
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- CN211201919U CN211201919U CN201921572804.3U CN201921572804U CN211201919U CN 211201919 U CN211201919 U CN 211201919U CN 201921572804 U CN201921572804 U CN 201921572804U CN 211201919 U CN211201919 U CN 211201919U
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Abstract
The utility model discloses a turbine fracturing equipment, including conveyer, turbine engine, the reducing gear box, drive mechanism and fracturing pump, the one end of reducing gear box is connected to turbine engine's output, be connected through the drive mechanism transmission between the other end of reducing gear box and the plunger pump, conveyer is used for bearing turbine engine, the reducing gear box, drive mechanism and plunger pump, conveyer includes the chassis, the chassis is equipped with the transportation section, bearing segment and overlap joint section, the transportation section, bearing segment and overlap joint section connect gradually, when turbine fracturing equipment operating condition, bearing segment can contact ground, when turbine fracturing equipment transport condition, the non-contact surface of bearing segment. Has the advantages that: the equipment adopts the design of linear connection and special chassis, so that the gravity center is reduced doubly, the stability and the safety are well ensured, the structure is simpler, the investment cost and the operation cost are reduced, the whole paralysis risk of a fracturing site is reduced, the transmission performance is good, and the equipment is suitable for the continuous operation working condition of long-time heavy load.
Description
Technical Field
The invention relates to the field of oil and gas field operation, in particular to turbine fracturing equipment.
Background
On the fracturing operation site of the global oil and gas field, the driving modes of the fracturing equipment mainly comprise two modes:
the first driving mode is diesel engine driving, and the specific scheme is that the diesel engine is connected with a gearbox and drives a fracturing pump to work through a transmission shaft. That is, the power source is a diesel engine, the transmission is a gearbox and a driveshaft, and the actuator is a frac pump.
This configuration mode has the following disadvantages:
(1) large volume and heavy weight: the diesel engine drives the gearbox to drive the fracturing pump through the transmission shaft, and the fracturing pump is large in size, heavy in weight, limited in transportation and small in power density.
(2) And is not environment-friendly: in the well site operation process of the fracturing equipment driven by the diesel engine, engine exhaust pollution and noise pollution can be generated, the noise exceeds 105dBA, and the normal life of surrounding residents is seriously influenced.
(3) Uneconomic: the fracturing equipment driven by the diesel engine has the advantages of higher initial purchase cost, high unit power fuel consumption cost during the operation of the equipment and high daily maintenance cost of the engine and the gearbox.
The second driving mode is electrically driven fracturing, and the specific scheme is that the motor is connected with a transmission shaft or a coupling to drive a fracturing pump to work. That is, the power source is an electric motor, the transmission is a drive shaft or coupling, and the actuator is a frac pump.
Electrically driven fracturing by itself, while having many advantages, the powering of a fracturing well site is a prerequisite for electrically driven fracturing practices. Typically, the problem of powering a fracturing well site is not well solved. Or the power grid capacity of a well site is too small, and the whole fracturing unit is not driven; or the well site has no grid at all. Common electrically driven fracturing sites typically use generators to generate electricity, the most economical fuel for electricity generation is natural gas, but the use of natural gas requires the user to rent or purchase gas-fired power generating units. For a fractured well site without a power grid, the power of the gas-fired power generator set needs to reach at least 30MW, which is a significant investment for customers to purchase such a high-power gas-fired power generator set. More importantly, in the actual construction process, because the gas generator set is stopped due to faults, the whole electrically-driven fracturing unit can be paralyzed, the operation quality is seriously influenced, and even operation accidents can be caused.
Therefore, a new fracturing device is urgently needed to be provided, the defects of the existing diesel engine driven fracturing and the existing electric driven fracturing are overcome, and the requirements of the global oil-gas field fracturing market can be better met.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provide the turbine fracturing equipment, the gravity center of the equipment is reduced doubly due to the linear connection of the whole equipment and the design of a special chassis, the stability and the safety are well ensured, the structure is simpler, the investment cost and the operation cost are reduced, the risk of whole paralysis of a fracturing site is reduced, the transmission performance is good, and the equipment is suitable for continuous operation working conditions with large load for a long time.
The aim of the invention is achieved by the following technical measures: the utility model provides a turbine fracturing equipment, turbine fracturing equipment includes conveyer, turbine engine, reducing gear box, drive mechanism and fracturing pump, the one end of reducing gear box is connected to turbine engine's output, is connected through the drive mechanism transmission between the other end of reducing gear box and the fracturing pump, conveyer is used for bearing turbine engine, reducing gear box, drive mechanism and fracturing pump, conveyer includes the chassis, the chassis is equipped with transportation section, bears section and overlap joint section, transportation section, bearing section and overlap joint section connect gradually, and when turbine fracturing equipment operating condition, the bearing section on chassis can contact ground, and when turbine fracturing equipment transportation state, the bearing section on chassis does not contact ground.
Further, the transportation device comprises wheels and axles, wherein the wheels are arranged at two ends of the axles, the axles are connected with the chassis, and the number of the axles is more than 3.
Further, the axle is arranged at the transportation section of the chassis.
Further, when the turbine fracturing equipment is in a working state, the bottom surface of the bearing section of the chassis and the bottoms of the wheels are on the same horizontal line.
Further, when the turbine fracturing equipment is in a transportation state, the lap joint section is used for assisting the transportation of the transportation device under the action of external drag force.
Further, the bottom of overlap joint section is equipped with the inclined plane, is equipped with the arch on the inclined plane, when in turbine fracturing equipment transportation state, the inclined plane can use with the equipment cooperation of outside power of dragging, the fixed conveyer of arch ability help prevents that conveyer and outside power of dragging's equipment from separating.
Further, the turbine engine is provided with an exhaust system on the opposite side of the connecting reduction box, the exhaust system comprises an exhaust silencer and an exhaust pipeline, and the exhaust silencer is communicated with an exhaust port of the turbine engine through the exhaust pipeline.
Furthermore, the exhaust system, the turbine engine, the reduction gearbox, the transmission mechanism and the fracturing pump are arranged on the same straight line along the power transmission direction.
Further, the transmission mechanism is a transmission shaft or a coupling.
Furthermore, a hydraulic power unit is arranged on the gooseneck of the chassis and used for driving a hydraulic system on the turbine fracturing equipment.
Further, the hydraulic power unit is driven by a diesel engine or an electric motor.
Furthermore, a heat dissipation system is arranged on the gooseneck of the chassis and cools oil used on the turbine fracturing equipment.
Further, the power of the fracturing pump is above 5000 hp.
Compared with the prior art, the invention has the beneficial effects that: through the turbine engine, the reduction gearbox, the transmission mechanism and the fracturing pump are connected along the straight line in the power transmission direction, excessive transmission loss can be avoided, and efficient transmission performance is guaranteed. The turbine engine has the advantages of small volume, light weight and high power density, the single machine power of the turbine fracturing equipment is more than 2 times that of the conventional diesel fracturing equipment due to the same external dimension and weight. The turbine engine can directly use 100% of natural gas as fuel, and compared with diesel consumption in diesel driving and investment of a gas generator set in electric driving fracturing equipment, the use cost is greatly reduced. Meanwhile, the turbine fracturing equipment is usually driven to work in a one-to-one mode with the fracturing pump, and unlike an electrically driven fracturing equipment in which a single high-power gas generator set drives a plurality of fracturing pumps, the turbine fracturing equipment can be used for sharing the fault risk of the single high-power gas generator to each turbine fracturing equipment. The risk that the whole set of fracturing truck set is paralyzed due to the fault of a single gas power generation device is avoided. Through the special chassis design of conveyer, make whole equipment reduce its focus on the basis of focus is reduced in sharp connection to let whole equipment no matter transport or under operating condition, stability, security all more go up the first floor.
The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
Drawings
Fig. 1 is a schematic structural diagram of a turbine fracturing device in an operating state.
Fig. 2 is a schematic diagram of the structure of the turbine fracturing equipment in a transportation state.
The hydraulic fracturing unit comprises a hydraulic power unit 1, a transportation device 2, an exhaust silencer 3, an exhaust pipeline 4, a turbine engine 5, a reduction gearbox 6, a transmission mechanism 7, a fracturing pump 8, a tractor 9, an inclined plane 10, a bulge 11, a horizontal plane 12 and a slope 13.
Detailed Description
As shown in fig. 1 to 2, a turbine fracturing apparatus includes a transportation device 2, a turbine engine 5, a reduction gearbox 6, a transmission mechanism 7 and a fracturing pump 8, the turbine engine 5 is a power source of a power transmission system of the whole vehicle, the output end of the turbine engine 5 is connected with one end of the reduction gearbox 6, the other end of the reduction gearbox 6 is in transmission connection with the fracturing pump 8 through the transmission mechanism 7, the transportation device 2 is used for bearing a turbine engine 5, a reduction gearbox 6, a transmission mechanism 7 and a fracturing pump 8, the transportation device 2 comprises a chassis, the chassis is provided with a transportation section, a bearing section and a lap joint section, the transportation section, the bearing section and the lap joint section are sequentially connected, when the turbine fracturing equipment is in a working state, the bearing section of the chassis can be in contact with the ground, and when the turbine fracturing equipment is in a transportation state, the bearing section of the chassis is not in contact with the ground. The chassis can also be provided with a storage battery line, a fuel tank, a lubricating oil tank, a hydraulic oil tank and other components to provide oil and support for the turbine engine 5, the reduction gearbox 6, the fracturing pump 8 and other upper parts. The reduction gearbox 6 is used for driving the fracturing pump 8 to work through the transmission mechanism 7 after the power output of the turbine engine 5 is reduced in speed and increased in torque.
The transportation device 2 comprises wheels and axles, the wheels are arranged at two ends of the axles, the axles are connected with the chassis, the number of the axles is more than 3, and sufficient bearing capacity of the axles is guaranteed.
The axle is arranged at the transportation section of the chassis.
When the turbine fracturing equipment is in a working state, the bottom surface of the bearing section of the chassis and the bottoms of the wheels are on the same horizontal line. The bottom surface of the bearing section is a horizontal plane 12 and a slope 13, and the horizontal plane 12 of the bottom surface of the bearing section is in full contact with the ground in a working state, so that the working stability of the equipment is improved. When the slope surface 13 is used in the transportation state of the turbine fracturing equipment, the lifted chassis is separated from the ground so as to be convenient to walk.
In the transportation state of the turbine fracturing equipment, the lap joint section is used for assisting the transportation of the transportation device 2 under the action of external drag force.
The bottom of overlap joint section is equipped with inclined plane 10, is equipped with arch 11 on inclined plane 10, when at turbine fracturing equipment transportation state, inclined plane 10 can use with the equipment cooperation of outside power of dragging, arch 11 can help fixed conveyer 2, prevents that conveyer 2 from dragging the equipment separation of power with the outside. The external towing device may be a tractor 9 or the like. The protrusion 11 may be a draw pin.
The turbine engine 5 is provided with an exhaust system on the opposite side of the connecting reduction box 6, the exhaust system comprises an exhaust silencer 3 and an exhaust pipeline 4, and the exhaust silencer 3 is communicated with an exhaust port of the turbine engine 5 through the exhaust pipeline 4. The exhaust pipe 4 is used to guide the exhaust gas of the turbine engine 5 into the exhaust muffler 3, and the exhaust muffler 3 can reduce exhaust noise.
The exhaust system, the turbine engine 5, the reduction gearbox 6, the transmission mechanism 7 and the fracturing pump 8 are arranged on the same straight line along the power transmission direction. Through the linear connection of the turbine engine 5, the reduction gearbox 6, the transmission mechanism 7 and the fracturing pump 8 along the power transmission direction, excessive transmission loss can be avoided, and high-efficiency transmission performance is ensured. The turbine engine 5 has the advantages of small volume, light weight and high power density, and the single machine power of the turbine fracturing equipment is more than 2 times that of the conventional diesel fracturing equipment with the same external dimension and weight. The turbine engine 5 can directly use 100% of natural gas as fuel, and compared with diesel consumption in diesel driving and investment of a gas generator set in electrically driven fracturing equipment, the use cost is greatly reduced. Of course, the turbine engine 5 may also be 100% fueled by fuel oil, preferably natural gas, which may reduce fuel costs more than fuel oil. Meanwhile, the turbine fracturing equipment is usually driven to work in a one-to-one mode with the fracturing pump 8, and unlike the electrically-driven fracturing equipment in which a plurality of fracturing pumps 8 are driven by a single high-power gas generator set, the turbine fracturing equipment can be used for distributing the fault risk of the single high-power gas generator to each turbine fracturing equipment. The risk that the whole set of fracturing truck set is paralyzed due to the fault of a single gas power generation device is avoided.
The transmission mechanism 7 is a transmission shaft or a coupling.
A hydraulic power unit 1 is arranged on a gooseneck of the chassis, and the hydraulic power unit 1 is used for driving a hydraulic system on the turbine fracturing equipment. The hydraulic system comprises a hydraulic pump, a hydraulic motor, various valve elements, a hydraulic oil tank, a hydraulic oil radiator and the like, (the hydraulic system mainly has the functions of driving a fuel pump of the turbine engine 5, a starting motor of the turbine engine 5, a power end lubricating system of the fracturing pump 8, a reduction gearbox 6 lubricating system, radiators of various oil products and the like).
The hydraulic power unit 1 is driven by a diesel engine or an electric motor.
And a heat dissipation system is arranged on the gooseneck of the chassis and cools oil used on the turbine fracturing equipment. The used oil products comprise turbine engine 5 engine oil, hydraulic oil, fracturing pump 8 lubricating oil, reduction gearbox 6 lubricating oil and the like.
The power of the fracturing pump 8 is more than 5000hp, and the larger the power of the fracturing pump 8 is, the more suitable the continuous operation working condition of long-time heavy load is.
It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (13)
1. A turbine fracturing apparatus, characterized by: the turbine fracturing equipment comprises a conveying device, a turbine engine, a reduction gearbox, a transmission mechanism and a fracturing pump, wherein the output end of the turbine engine is connected with one end of the reduction gearbox, the other end of the reduction gearbox is in transmission connection with a plunger pump through the transmission mechanism, the conveying device is used for bearing the turbine engine, the reduction gearbox, the transmission mechanism and the plunger pump, the conveying device comprises a chassis, the chassis is provided with a conveying section, a bearing section and an overlapping section, the conveying section, the bearing section and the overlapping section are sequentially connected, the bearing section of the chassis can be in contact with the ground when the turbine fracturing equipment is in a working state, and the bearing section of the chassis is not in contact with the ground when the turbine fracturing equipment is in a conveying state.
2. The turbine fracturing apparatus of claim 1, wherein: the transportation device comprises wheels and axles, wherein the wheels are arranged at two ends of the axles, the axles are connected with the chassis, and the number of the axles is more than 3.
3. The turbine fracturing apparatus of claim 2, wherein: the axle is arranged at the transportation section of the chassis.
4. The turbine fracturing apparatus of claim 2, wherein: when the turbine fracturing equipment is in a working state, the bottom surface of the bearing section of the chassis and the bottoms of the wheels are on the same horizontal line.
5. The turbine fracturing apparatus of claim 1, wherein: when the turbine fracturing equipment is in a transportation state, the lap joint section is used for assisting the transportation of the transportation device under the action of external drag force.
6. The turbine fracturing apparatus of claim 5, wherein: the bottom of overlap joint section is equipped with the inclined plane, is equipped with the arch on the inclined plane, when at turbine fracturing equipment transportation state, the inclined plane can use with the equipment cooperation of outside power of dragging, the fixed conveyer of arch ability help prevents that conveyer and outside equipment of dragging from separating.
7. The turbine fracturing apparatus of claim 1, wherein: and the turbine engine is provided with an exhaust system on the opposite side of the connecting reduction box, the exhaust system comprises an exhaust silencer and an exhaust pipeline, and the exhaust silencer is communicated with an exhaust port of the turbine engine through the exhaust pipeline.
8. The turbine fracturing apparatus of claim 7, wherein: the exhaust system, the turbine engine, the reduction gearbox, the transmission mechanism and the plunger pump are arranged on the same straight line along the power transmission direction.
9. The turbine fracturing apparatus of claim 1, wherein: the transmission mechanism is a transmission shaft or a coupling.
10. The turbine fracturing apparatus of claim 1, wherein: and a hydraulic power unit is arranged on the gooseneck of the chassis and is used for driving a hydraulic system on the turbine fracturing equipment.
11. The turbine fracturing apparatus of claim 10, wherein: the hydraulic power unit is driven by a diesel engine or an electric motor.
12. The turbine fracturing apparatus of claim 1, wherein: and a heat dissipation system is arranged on the gooseneck of the chassis and cools oil used on the turbine fracturing equipment.
13. The turbine fracturing apparatus of claim 1, wherein: the power of the plunger pump is more than 5000 hp.
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CN201921572804.3U CN211201919U (en) | 2019-09-20 | 2019-09-20 | Turbine fracturing equipment |
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CN201921572804.3U CN211201919U (en) | 2019-09-20 | 2019-09-20 | Turbine fracturing equipment |
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