CN210599194U

CN210599194U - Mobile power system

Info

Publication number: CN210599194U
Application number: CN201921354854.4U
Authority: CN
Inventors: 冯宁; 崔启利; 张亭; 周立宾; 查万春; 吴琼; 寇涛; 李鑫; 张涛; 王丽丽; 崔树桢
Original assignee: Yantai Jereh Petroleum Equipment and Technologies Co Ltd
Current assignee: Yantai Jereh Petroleum Equipment and Technologies Co Ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2020-05-22
Anticipated expiration: 2029-08-20

Abstract

The utility model discloses a mobile power system, which realizes effective integration by distributing the whole mobile power system on two transport tools, and reduces transport tools and transport cost; the two transportation tools are connected laterally, so that the quick and convenient connection in a working state is realized, and the time required by installation is greatly saved; the gas turbine starting device is arranged on the exhaust auxiliary transportation unit, so that the gas turbine can be started in the whole power failure state of the mobile power system.

Description

Mobile power system

Technical Field

The utility model relates to a power generation technical field, concretely relates to mobile power system.

Background

The oil and gas industry commonly uses hydraulic fracturing to facilitate the production of hydrocarbon wells, such as oil or gas wells. The traditional fracturing equipment usually has the problems of large occupied area, serious environmental pollution and the like, and is difficult to meet the current severe environmental requirements and the occupied area requirements of well site operation.

The electrically-driven fracturing complete equipment can effectively reduce the emission of environmental pollutants, greatly reduce the occupied area, reduce the noise and reduce the operation and maintenance cost. The use of complete electrically driven fracturing equipment and the ever increasing power of electrically driven fracturing equipment place ever-increasing demands on the power supply of the job site. The well site is typically unable to power the fracturing equipment through the power grid. And the fracturing operation has the characteristics of short operation period, and fracturing equipment needs to be moved among different well sites. In general, the components of the power supply system are assembled in different ways, so that the vehicle-mounted structure is different, the mounting way is different, and the required mounting time is 1 month long and half month short.

How to provide the electric-driven fracturing operation site with the power supply which has short installation time, convenient installation and movable performance becomes a great challenge in the current electric-driven fracturing operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects of the prior art and providing a mobile power system, which realizes effective integration by distributing the whole mobile power system to two transport tools and reduces the transport tools and the transport cost; the two transportation tools are connected laterally, so that the quick and convenient connection in a working state is realized, and the time required by installation is greatly saved; the gas turbine starting device is arranged on the exhaust auxiliary transportation unit, so that the gas turbine can be started in the whole power failure state of the mobile power system.

The purpose of the utility model is achieved through the following technical measures: a mobile power system comprises a turbine power generation transportation unit and an exhaust auxiliary transportation unit, wherein the exhaust auxiliary transportation unit is connected to at least one side surface of the turbine power generation transportation unit, the turbine power generation transportation unit comprises an air inlet system, a gas turbine, a generator and a first transportation tool, the gas turbine converts hydrocarbon fuel into output shaft mechanical energy, the air inlet system is arranged on the air inlet side of the gas turbine and provides combustion-supporting air for the conversion process, and the generator is arranged at the output end of the gas turbine and converts the mechanical energy into required electric energy; the exhaust auxiliary transportation unit comprises an exhaust system, a cabin ventilation cooling system and a second transportation tool, wherein the exhaust system and the cabin ventilation cooling system are arranged on the second transportation tool, the exhaust system is connected with an exhaust port of the gas turbine, and the cabin ventilation cooling system is connected to a cabin of the gas turbine.

Further, the exhaust auxiliary transportation unit comprises a gas turbine starting device, the gas turbine starting device is used for helping the mobile power system to realize gas turbine starting in all power failure states, and the gas turbine starting device is a generator set or a storage battery set with self-starting capability.

Further, the turbine power generation transportation unit further comprises a power control unit, the power control unit comprises a power unit and a control unit, the power unit is used for outputting the electricity of the power generator to the outside, the control unit comprises a gas turbine control unit and a power generator control unit, the gas turbine control unit acts on the gas turbine, and the power generator control unit acts on the power generator.

Further, exhaust system includes exhaust joint, exhaust silencing device and exhaust chimney, exhaust joint, exhaust silencing device and exhaust chimney connect gradually, and exhaust silencing device and exhaust chimney are set up to a whole, the other end that the exhaust connects is connected with gas turbine's gas vent, and under the transportation state, exhaust silencing device and exhaust chimney are the level and place, and under operating condition, exhaust silencing device and exhaust chimney are vertical and stand.

Further, in an operating state, the exhaust joint moves to the side of the second transportation tool through the bottom sliding rail.

Further, under the working state, the exhaust silencing device and the exhaust chimney are horizontally converted into vertically placed through the lifting mechanism.

Further, the exhaust system is connected to the side of the turbine power generation transport unit.

Further, the cabin ventilation and cooling system is connected with the side surface of the turbine power generation transportation unit.

Furthermore, the exhaust auxiliary transportation unit is also provided with a set of hydraulic walking device, and the hydraulic walking device is used for fine adjustment of the second transportation tool in the vertical and horizontal directions in a working state so as to be in butt joint with the turbine power generation transportation unit more quickly.

Compared with the prior art, the beneficial effects of the utility model are that: 1. by sharing all of the mobile power system to two transport means, effective integration is achieved, and transport means and transport costs are reduced. 2. The two transportation tools are connected laterally, so that the rapid and convenient connection in a working state is realized, and the time required by installation is greatly saved. 3. The gas turbine starting device is arranged on the exhaust auxiliary transportation unit, so that the gas turbine can be started in the whole power failure state of the mobile power system.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a mobile power system.

FIG. 2 is a cross-sectional view of a turbine power generating transport unit.

Fig. 3 is a schematic structural view of the exhaust auxiliary transport unit in a transport state.

Fig. 4 is a schematic structural view of the exhaust auxiliary transport unit in an operating state.

The system comprises a turbine power generation transportation unit 100, an exhaust auxiliary transportation unit 200, an air inlet system 101, an air inlet joint 102, an air inlet joint 103, a gas turbine 104, a power generator 105, an electric power control unit 106, a first transportation tool 201, a gas turbine starting device 202, a cabin ventilation cooling system 203, an exhaust system 204, a second transportation tool 205, an exhaust joint 206 and a ventilation flexible connecting pipe.

Detailed Description

Embodiment, as shown in fig. 1 to 4, a mobile power system comprises a turbine power generation transport unit 100 and an exhaust gas auxiliary transport unit 200, wherein the exhaust gas auxiliary transport unit 200 is connected to at least one side of the turbine power generation transport unit 100, the turbine power generation transport unit 100 comprises an air intake system 101, a gas turbine 103, a generator 104 and a first transport tool 106, the gas turbine 103 converts hydrocarbon fuel into output shaft mechanical energy, the air intake system 101 is arranged on the air inlet side of the gas turbine 103 and is connected with the air inlet of the gas turbine 103 through an air inlet joint 102 to provide combustion air for the conversion process, the air intake system 101 is integrated with the air inlet of the gas turbine 103, the air inlet joint 102 uses a straight cylinder type joint to avoid unnecessary bends, the air inlet pressure loss is small, and the flow direction is stable.

The generator 104 is arranged on the output shaft side of the gas turbine 103 and connected through an intermediate shaft to convert mechanical energy into required electric energy, the exhaust auxiliary transportation unit 200 comprises an exhaust system 203, a cabin ventilation cooling system 202, a gas turbine starting device 201 and a second transportation tool 204, the exhaust system 203, the cabin ventilation cooling system 202 and the gas turbine starting device 201 are arranged on the second transportation tool 204, the exhaust system 203 is connected with an exhaust port of the gas turbine 103, and the cabin ventilation cooling system 202 is connected to a cabin of the gas turbine 103 through a flexible ventilation pipeline to provide clean air for cooling the cabin of the turbine power generation transportation unit 100. The gas turbine starting device 201 is used for starting the gas turbine 103 without depending on the help of other power networks in the state of all power failures of the mobile power system. The gas turbine starting apparatus 201 includes an oil engine and a starter generator to supply electric power for starting the gas turbine 103. The turbine power generation and transportation unit 100 integrates the air inlet system 101, the gas turbine 103 and the generator 104, so that the connection of the air inlet system 101 on site is omitted, the power output shafting alignment is simplified, the precision and the difficulty of site assembly are greatly reduced, and the assembly time is shortened.

The turbine power generation transportation unit 100 further includes auxiliary systems (not shown) such as a lubricating oil system (for providing lubrication to the gas turbine 103 and the generator 104), a fire protection system (for extinguishing fire in the cabin), and a gas supply system (for providing fuel to the combustion engine).

The turbine power generation transport unit 100 further includes a power control unit 105, the power control unit 105 includes a power unit for outputting electricity of the power generator 104 to the outside and a control unit including a gas turbine control unit acting on the gas turbine 103 and a gas turbine auxiliary device (e.g., a lubricating oil pump, etc.) and a power generator control unit acting on the power generator 104. The integration of the power control unit 105 on the turbine power generation transport unit 100 reduces the on-site cabling effort while extending the service life of the electrical components.

The exhaust system 203 comprises an exhaust joint 205, an exhaust silencer and an exhaust chimney, the exhaust joint 205, the exhaust silencer and the exhaust chimney are sequentially connected, the exhaust silencer and the exhaust chimney are arranged into a whole and are connected to a second transport tool 204 in an articulated mode, the other end of the exhaust joint 205 is connected with an exhaust port of the gas turbine 103, the exhaust silencer and the exhaust chimney are horizontally arranged in a transport state, and the exhaust silencer and the exhaust chimney are vertically and vertically arranged in a working state.

In the operating state, the exhaust joint 205 is moved to the side of the second transportation means 204 by the bottom slide rail.

In the working state, the exhaust silencing device and the exhaust chimney are horizontally converted into vertically and vertically placed through a lifting mechanism, and the lifting mechanism can be a hydraulic oil cylinder and the like. The exhaust gas from the gas turbine 103 is exhausted to the atmosphere via an exhaust port, an exhaust fitting 205, an exhaust silencer, and an exhaust stack in that order.

The exhaust system 203 is connected to the side of the turbine power generation transport unit 100. The nacelle ventilation and cooling system 202 is coupled to the sides of the turbine power generation transport unit 100. The cabin ventilation and cooling system 202 and the exhaust system 203 are connected to the side faces of the turbine power generation transportation unit 100, so that hoisting is avoided, the operation difficulty is reduced, and the operation convenience is improved.

The exhaust auxiliary transport unit 200 is further provided with a set of hydraulic traveling devices for fine adjustment of the second transport means 204 in the up-down, left-right directions in an operating state, so as to more quickly complete the docking with the turbine power generation transport unit 100. The hydraulic walking device comprises vertical supporting legs, a horizontal telescopic mechanism and a horizontal hydraulic oil cylinder, wherein the vertical supporting legs comprise a vertical hydraulic oil cylinder and a mechanical structure capable of resisting horizontal stress of the vertical hydraulic oil cylinder, and fine adjustment of the height of the second transportation tool 204 is achieved through stretching of the vertical hydraulic oil cylinder (if the exhaust joint 205 needs to be lifted or lowered). Under the coordination action of the horizontal telescoping mechanism and the horizontal hydraulic oil cylinders, when the horizontal hydraulic oil cylinders on the two sides simultaneously telescope towards a certain side, the second transport means 204 is close to or far away from the first transport means 106 (namely, the exhaust joint 205 is close to or far away from the exhaust port).

The first vehicle 106 and the second vehicle 204 are at least one of a trailer, a truck, a skid, or a barge.

The system is transported by two transportation tools, after the system reaches the destination, the turbine power generation transportation unit 100 is parked according to the layout of a well plant, and the exhaust auxiliary transportation unit 200 is transported to the side of the turbine power generation transportation unit 100 according to the position of the turbine power generation transportation unit 100. The exhaust auxiliary transportation unit 200 adjusts the head-tail direction position through the second transportation tool 204, then finely adjusts the up-down, left-right position of the second transportation tool 204 through the hydraulic walking device, and after the adjustment is carried out to a proper position, the exhaust joint 205 moves to the outer side of the exhaust auxiliary transportation unit 200 through a slide rail arranged at the bottom of the exhaust joint 205 along the direction close to the turbine power generation transportation unit 100, is butted with an exhaust port of the gas turbine 103, and is in sealing connection through a flexible fireproof material, and meanwhile, the exhaust silencer and the exhaust chimney are turned to a vertical position from a horizontal position through the lifting action of a hydraulic oil cylinder arranged at the bottom and are in sealing connection with the exhaust joint 205. The flexible ventilating connecting pipe 206 in the cabin ventilating and cooling system 202 extends towards the direction close to the turbine power generation and transportation unit 100 and is hermetically connected with the cabin ventilating opening of the gas turbine 103, so that the installation and connection of the mobile power system are completed, and the mobile power system enters a working state.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A mobile power system, characterized by: the system comprises a turbine power generation transportation unit and an exhaust auxiliary transportation unit, wherein the exhaust auxiliary transportation unit is connected to at least one side surface of the turbine power generation transportation unit, the turbine power generation transportation unit comprises an air inlet system, a gas turbine, a generator and a first transportation tool, the gas turbine converts hydrocarbon fuel into output shaft mechanical energy, the air inlet system is arranged on the air inlet side of the gas turbine and provides combustion-supporting air for the conversion process, and the generator is arranged at the output end of the gas turbine and converts the mechanical energy into required electric energy; the exhaust auxiliary transportation unit comprises an exhaust system, a cabin ventilation cooling system and a second transportation tool, wherein the exhaust system and the cabin ventilation cooling system are arranged on the second transportation tool, the exhaust system is connected with an exhaust port of the gas turbine, and the cabin ventilation cooling system is connected to a cabin of the gas turbine.

2. Mobile power system according to claim 1, characterized in that: the exhaust auxiliary transportation unit comprises a gas turbine starting device, the gas turbine starting device is used for helping a mobile power system to realize gas turbine starting in a complete power failure state, and the gas turbine starting device is a generator set or a storage battery set with self-starting capability.

3. Mobile power system according to claim 1, characterized in that: the turbine power generation transportation unit further comprises a power control unit, the power control unit comprises a power unit and a control unit, the power unit is used for outputting electricity of the power generator to the outside, the control unit comprises a gas turbine control unit and a power generator control unit, the gas turbine control unit acts on a gas turbine, and the power generator control unit acts on the power generator.

4. Mobile power system according to claim 1, characterized in that: the exhaust system comprises an exhaust joint, an exhaust silencer and an exhaust chimney, wherein the exhaust joint, the exhaust silencer and the exhaust chimney are sequentially connected, the exhaust silencer and the exhaust chimney are arranged into a whole, the other end of the exhaust joint is connected with an exhaust port of the gas turbine, the exhaust silencer and the exhaust chimney are horizontally placed in a transportation state, and the exhaust silencer and the exhaust chimney are vertically placed in a working state.

5. Mobile power system according to claim 4, characterized in that: in the operating state, the exhaust joint moves to the side of the second transport means through the bottom slide rail.

6. Mobile power system according to claim 4, characterized in that: and in the working state, the exhaust silencing device and the exhaust chimney are horizontally converted into vertically and vertically placed through the lifting mechanism.

7. Mobile power system according to claim 1, characterized in that: the exhaust system is connected with the side surface of the turbine power generation transportation unit.

8. Mobile power system according to claim 1, characterized in that: the cabin body ventilation and cooling system is connected with the side face of the turbine power generation transportation unit.

9. Mobile power system according to claim 1, characterized in that: the exhaust auxiliary transportation unit is also provided with a set of hydraulic walking device, and the hydraulic walking device is used for fine adjustment of the second transportation tool in the up-down left-right direction in a working state so as to be in butt joint with the turbine power generation transportation unit more quickly.