WO2021120093A1 - Firefighting system of turbine engine - Google Patents

Abstract

A firefighting system of a turbine engine (7). The firefighting system comprises a firefighting material storage unit (1), a control unit (3), a control box (4), a pipeline unit (5), and a firefighting monitoring unit (6). The firefighting material storage unit (1) is connected to the turbine engine (7) by means of the pipeline unit (5). The firefighting monitoring unit (6) is used for monitoring a firefighting hidden danger of the turbine engine (7), and feeding monitored data back to the control unit (3). The control unit (3) is provided on the pipeline unit (5). The control box (4) is connected to the control unit (3). The beneficial effects are: the present invention provides a set of firefighting system for electric drive fracturing equipment of oil and gas fields, fills up the gap in the prior art, improves the safety performance of the electric drive fracturing equipment of the turbine engine (7), and has a good firefighting effect, automatic operation, and comprehensive monitoring.

Description

Fire fighting system of turbine engine Technical field

The invention relates to the technical field of turbine fracturing, in particular to a fire fighting system of a turbine engine.

Background technique

In the global oil and gas field fracturing operation sites, along with the development of fracturing equipment and technology, fracturing equipment using turbine engines as the power source has appeared. Compared with traditional diesel engines, turbine engines have many advantages, such as high power density of single unit, which can 100% natural gas is used as fuel to reduce construction costs, etc., so that turbine engines can be used on a large scale in fracturing operation sites. Due to the characteristics of the turbine engine itself, the characteristics of the fuel, and the environmental constraints of the turbine engine's fracturing equipment site, The potential safety hazards of turbine engines have become more and more prominent, and the reality is that there is a gap in fire fighting technology for turbine engines at oil and gas field fracturing operations.

For this reason, there is an urgent need for a fire-fighting system specifically aimed at oil and gas field fracturing operation sites and turbine engines.

Summary of the invention

The purpose of the present invention overcomes the shortcomings of the prior art and provides a fire-fighting system for a turbine engine. By integrating the fire-fighting system on the carrier where the turbine engine is located, it meets the fire-fighting requirements of the turbine engine without adding an external carrier and makes up for The application of the turbine engine in the electric drive fracturing equipment is a firefighting gap; the entire firefighting system is controlled by the PLC controller to realize the automatic operation of the entire firefighting system, and the intelligent control also reduces manpower input; the fire-fighting material storage unit is equipped with a weighing unit Real-time monitoring of the fire-fighting material balance to ensure that the fire-fighting system has normal fire-fighting functions at all times; the weighing unit can be connected to the PLC controller to further improve the intelligent control of the entire fire-fighting system; the fire-fighting monitoring unit is equipped with a variety of detectors to Dynamic monitoring of various possible hidden dangers; the pipeline unit is connected with the intake pipe of the turbine engine to ensure that fire-fighting materials can be injected into the intake pipe of the turbine engine to extinguish the fire; on the other hand, it prevents the gas from continuing to enter the turbine engine and aggravates the danger; multiple nozzles Set up and extinguish fire quickly.

The purpose of the present invention is achieved through the following technical measures: a fire-fighting system for a turbine engine, including a fire-fighting material storage unit, a control unit, a control box, a pipeline unit and a fire-fighting monitoring unit, the fire-fighting material storage unit passes through the pipeline unit Connected to the turbine engine, the fire monitoring unit is used to monitor the hidden fire hazards of the turbine engine and feed back monitoring data to the control unit, the control unit is arranged on the pipeline unit, and the control box is connected to the control unit.

Further, the fire-fighting system of the turbine engine includes a weighing unit, and the weighing unit is used for monitoring the remaining amount of fire-fighting material in the fire-fighting material storage unit.

Further, the weighing unit is provided with an alarm unit, and a minimum value is set on the weighing unit. When the weighing unit detects that the fire-fighting material remaining in the fire-fighting material storage unit is equal to or lower than the minimum value, an alarm is issued.

Further, the weighing unit is connected to the control unit.

Further, the fire-fighting material storage unit, control unit, control box, pipeline unit, weighing unit and fire-fighting monitoring unit are integrated on the carrier where the turbine engine is located.

Further, the fire monitoring unit includes a temperature detector.

Further, the fire monitoring unit includes a flame detector.

Further, the fire monitoring unit includes a combustible gas detector.

Further, the fire-fighting material storage unit is connected to the intake pipe of the turbine engine through a pipeline unit.

Further, the pipeline unit is connected to the intake pipe of the turbine engine through a nozzle, and there are a plurality of nozzles.

Further, the control unit is a PLC controller.

Compared with the prior art, the present invention has the beneficial effects of providing a fire fighting system for a turbine engine. By integrating the fire fighting system on the carrier where the turbine engine is located, the fire fighting system of the turbine engine can be satisfied without adding an external carrier. The requirements make up for the fire protection gap in the application of turbine engines to electric drive fracturing equipment; the entire fire protection system is controlled by the PLC controller to realize the automatic operation of the entire fire protection system, intelligent control and at the same time reduce the labor input; the fire protection material storage unit is equipped with a scale The heavy unit monitors the remaining amount of fire-fighting materials in real time to ensure that the fire-fighting system has normal fire-fighting functions at all times; the weighing unit can be connected to the PLC controller to further improve the intelligent control of the entire fire-fighting system; the fire-fighting monitoring unit is equipped with multiple detections The pipeline unit is connected with the intake pipe of the turbine engine to ensure that fire-fighting materials can be injected into the intake pipe of the turbine engine to extinguish the fire. On the other hand, it prevents the gas from continuing to enter the turbine engine to aggravate the danger; Multi-nozzle setting, fast and comprehensive fire extinguishing.

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

Description of the drawings

Figure 1 is a schematic diagram of the structure of the turbine engine fire fighting system.

Among them, 1. Fire protection material storage unit, 2. Weighing unit, 3. Control unit, 4. Control box, 5. Pipeline unit, 6. Fire monitoring unit, 7. Turbine engine, 8. Semi-trailer.

Detailed ways

As shown in Figure 1, a fire-fighting system for a turbine engine includes a fire-fighting material storage unit 1, a control unit 3, a control box 4, a pipeline unit 5 and a fire-fighting monitoring unit 6, and the fire-fighting material storage unit 1 passes through the pipeline unit 5 is connected to the turbine engine 7. The fire monitoring unit 6 is used to monitor the hidden fire hazards of the turbine engine 7, and feed back the monitoring data to the control unit 3, which is arranged on the pipeline unit 5. The control box 4 is connected to the control unit 3. The fire-fighting material storage unit 1, the control unit 3, the control box 4, the pipeline unit 5, the weighing unit 2 and the fire-fighting monitoring unit 6 are integrated on the carrier where the turbine engine 7 is located. The carrier may be a semi-trailer 8 or the like. By integrating the fire-fighting system on the carrier where the turbine engine 7 is located, the fire-fighting requirements of the turbine engine 7 can be met without adding an external carrier; the entire fire-fighting system is controlled by the PLC controller to realize the automatic operation and intelligent control of the entire fire-fighting system At the same time reduce manpower investment. Usually the turbine engine 7 is equipped with a cabin, and the fire monitoring unit 6 can be arranged inside the cabin to realize real-time monitoring of the temperature, combustible gas, and flame in the cabin of the turbine engine 7. The fire-fighting material can be CO ₂ , dry powder, foam, alkyl halides and the like.

The fire-fighting system of the turbine engine 7 includes a weighing unit 2, which is used to monitor the remaining amount of fire-fighting materials in the fire-fighting material storage unit 1. The weighing unit 2 can be obtained from the weight and volume of the fire-fighting materials The remaining amount in the fire-fighting material storage unit 1. The weighing unit 2 is provided with an alarm unit, and a minimum value is set on the weighing unit 2. When the weighing unit 2 detects that the fire-fighting material remaining in the fire-fighting material storage unit 1 is equal to or lower than the minimum value, an alarm is issued, Ensure that the fire-fighting system has normal fire-fighting functions at all times.

The weighing unit 2 is connected to the control unit 3, and the control unit 3 is a PLC controller, which further improves the intelligent control of the entire fire fighting system.

The fire monitoring unit 6 includes a temperature detector, and the fire monitoring unit 6 includes a flame detector,

The fire monitoring unit 6 includes a combustible gas detector. The fire monitoring unit 6 is equipped with a variety of detectors to dynamically monitor various possible hidden dangers.

The fire-fighting material storage unit 1 is connected to the intake pipe of the turbine engine 7 through the pipeline unit 5, and the pipeline unit 5 is connected to the intake pipe of the turbine engine 7. On the one hand, it ensures that the fire-fighting material can be injected into the intake pipe of the turbine engine 7 to extinguish the fire. On the other hand, preventing the gas from continuing to enter the turbine engine 7 aggravates the danger. The pipeline unit 5 and the intake pipe of the turbine engine 7 are connected by nozzles, and the nozzles are multiple, and the nozzles are set up to quickly and completely extinguish the fire.

Those skilled in the industry should understand that the present invention is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principles of the present invention. Without departing from the spirit and scope of the present invention, the present invention may have Various changes and improvements, these changes and improvements all fall within the scope of the claimed invention. The scope of protection claimed by the present invention is defined by the appended claims and their equivalents.

Claims (11)

1. A fire-fighting system for a turbine engine is characterized in that it comprises a fire-fighting material storage unit, a control unit, a control box, a pipeline unit, and a fire-fighting monitoring unit. The fire-fighting material storage unit is connected to the turbine engine through the pipeline unit. The monitoring unit is used to monitor the hidden fire hazards of the turbine engine and feed back monitoring data to the control unit. The control unit is arranged on the pipeline unit, and the control box is connected to the control unit.
2. The fire-fighting system of the turbine engine according to claim 1, wherein the fire-fighting system of the turbine engine comprises a weighing unit, and the weighing unit is used for monitoring the remaining amount of fire-fighting material in the fire-fighting material storage unit.
3. The fire-fighting system of the turbine engine according to claim 2, wherein the weighing unit is provided with an alarm unit, and a minimum value is set on the weighing unit, when the weighing unit detects the fire-fighting material in the fire-fighting material storage unit When the margin is equal to or lower than the minimum value, an alarm is issued.
4. The fire fighting system of the turbine engine according to claim 2 or 3, wherein the weighing unit is connected to the control unit.
5. The fire-fighting system of the turbine engine according to claim 2, wherein the fire-fighting material storage unit, the control unit, the control box, the pipeline unit, the weighing unit and the fire-fighting monitoring unit are integrated on the carrier where the turbine engine is located.
6. The fire-fighting system for a turbine engine according to claim 1, wherein the fire-fighting monitoring unit includes a temperature detector.
7. The fire-fighting system for a turbine engine according to claim 1 or 6, wherein the fire-fighting monitoring unit includes a flame detector.
8. The fire-fighting system for a turbine engine according to claim 1 or 6 or 7, wherein the fire-fighting monitoring unit includes a combustible gas detector.
9. The fire-fighting system of the turbine engine according to claim 1, wherein the fire-fighting material storage unit is connected to the intake pipe of the turbine engine through a pipeline unit.
10. The fire fighting system of the turbine engine according to claim 9, wherein the pipeline unit is connected with the intake pipe of the turbine engine through a nozzle, and the nozzles are multiple.
11. The fire fighting system of a turbine engine according to claim 1, wherein the control unit is a PLC controller.

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