Disclosed is an air a gas source system for supplying air gas to a turbine engine by fracturing manifold equipment, including an air a gas supply device, an air gas delivery manifold, a filtering device, a gas detecting system and a connecting device, the air gas delivery manifold, the filtering device and the gas detecting system are integrated on the fracturing manifold equipment, the air gas supply device is connected to the air gas delivery manifold through the filtering device, and the air gas delivery manifold supplies air gas to the turbine engine through the connecting device. Beneficial effects: avoiding the hidden danger of the high pressure region, saving the floor space, avoiding the wiring of on-site delivery manifold, enhancing the connection efficiency, and reducing the difficulty of wellsite installation.
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1. An air A natural gas source system for supplying air natural gas to a turbine engine by fracturing manifold equipment, comprising an air a natural gas supply device, an air a natural gas delivery manifold, a filtering device, a gas detecting system and a connecting device, the air natural gas delivery manifold, the filtering device and the gas detecting system are integrated on the fracturing manifold equipment, the air natural gas supply device is connected to the air natural gas delivery manifold through the filtering device, and the air natural gas delivery manifold supplies air natural gas to the turbine engine through the connecting device wherein the air natural gas source system for supplying air natural gas to a turbine engine by fracturing manifold equipment comprises a guard, the guard is integrated on the fracturing manifold equipment and is used to isolate the air natural gas delivery manifold from the fracturing manifold on the fracturing manifold equipment; wherein the gas detecting system is a pan-and-tilt laser gas detecting system comprises multiple scanning laser gas telemeters, and the pan-and-tilt drives the scanning laser gas telemeters to detect multi-dimensional space on site in real time.
2. The air natural gas source system for supplying air natural gas to a turbine engine by fracturing manifold equipment according to
3. The air natural gas source system for supplying air natural gas to a turbine engine by fracturing manifold equipment according to
4. The air natural gas source system for supplying air natural gas to a turbine engine by fracturing manifold equipment according to
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As shown in
The air gas source system for supplying air gas to a turbine engine by fracturing manifold equipment includes a guard 5, the guard 5 is integrated on the fracturing manifold equipment 7 and is used to isolate the air gas delivery manifold 2 from the fracturing manifold on the fracturing manifold equipment 7. The guard 5 is set to isolate the fracturing manifold from the air gas delivery manifold 2, enabling the safety protection on the natural gas and high-pressure fracturing fluid, and enhancing the safety of the wellsite. The guard 5 is an isolating board.
The guard 5 is made of steel.
The gas detecting system 4 is a laser gas detecting system.
The gas detecting system 4 is a pan-and-tilt laser gas detecting system.
The pan-and-tilt laser gas detecting system includes multiple scanning laser gas telemeters, the intelligent pan-and-tilt drives the scanning laser gas telemeter to rotate 360° horizontally and 180° vertically, enabling the detection of multi-dimensional space on site in real time. The intelligent adjustment function of the pan-and-tilt laser gas detecting system can focus on the key detection areas, and the camera captures the scene pictures synchronously, achieving the basic positioning of missing areas. Meanwhile, the real-time detection data is transmitted to the background analysis system, realizing early detection, early warning and early handling of hidden dangers, greatly improving the safety protection level of the wellsite.
The connecting device 6 includes a connecting pipeline, a valve and a fast interface, the valve is used for the on-off of air gas supply of the connecting pipeline, and the fast interface is used for the fast connection between the connecting pipeline and the turbine engine. The connecting device 6 enables more flexible air gas supply, changing from air gas supply in series between turbine fracturing truck sets in the prior art to air gas supply in parallel, so that the movement of a single turbine fracturing truck does not affect the air gas supply of other turbine fracturing trucks, it is only necessary to shut off the valve and disconnect the fast interface.
It will be appreciated to persons skilled in the art that the present invention is not limited to the foregoing embodiments, which together with the context described in the specification are only used to illustrate the principle of the present invention. Various changes and improvements may be made to the present invention without departing from the spirit and scope of the present invention. All these changes and improvements shall fall within the protection scope of the present invention, which is defined by the appended claims and equivalents thereof.
Zhang, Peng, Wang, Jihua, Zhang, Rikui, Ji, Xiaolei, Wang, Jianwei, Mao, Zhuqing, Mao, Mingchao
| Patent | Priority | Assignee | Title |
| Patent | Priority | Assignee | Title |
| 10020711, | Nov 16 2012 | US WELL SERVICES LLC | System for fueling electric powered hydraulic fracturing equipment with multiple fuel sources |
| 10830032, | Jan 07 2020 | YANTAI JEREH PETROLEUM EQUIPMENT & TECHNOLOGIES CO , LTD | Air source system for supplying air to a turbine engine by fracturing manifold equipment |
| 10961908, | Jun 05 2020 | BJ ENERGY SOLUTIONS, LLC FORMERLY TES ASSET ACQUISITION, LLC | Systems and methods to enhance intake air flow to a gas turbine engine of a hydraulic fracturing unit |
| 11560845, | May 15 2019 | BJ Energy Solutions, LLC | Mobile gas turbine inlet air conditioning system and associated methods |
| 4280323, | May 25 1978 | Siemens Westinghouse Power Corporation | Gas turbine fuel control having fuel viscosity compensation to provide improved ignition reliability |
| 6079198, | Apr 29 1998 | General Electric Company | Pressure compensated fuel delivery system for the combustors of turbomachinery |
| 20110118967, | |||
| 20110290483, | |||
| 20120085079, | |||
| 20140042199, | |||
| 20150204239, | |||
| 20150205006, | |||
| 20160032702, | |||
| 20170009666, | |||
| 20170052070, | |||
| 20170074074, | |||
| 20170145918, | |||
| 20170203241, | |||
| 20170321608, | |||
| 20190211661, | |||
| 20190211814, | |||
| 20190323428, | |||
| 20210079758, | |||
| 20210198993, | |||
| 20210223801, | |||
| 20210372256, | |||
| CN105334061, | |||
| CN106285603, | |||
| CN109906305, | |||
| CN110469314, | |||
| CN111089003, | |||
| CN112664356, | |||
| CN112879160, | |||
| CN113982758, | |||
| CN1310292, | |||
| CN203626662, | |||
| CN206205996, | |||
| CN207111064, | |||
| CN207503423, | |||
| CN210422814, |
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