CN213542084U - Gas mixing system for high-concentration gas and low-concentration gas - Google Patents

Abstract

The utility model relates to a high-low concentration gas mixing system, belonging to the technical field of high-low concentration gas mixing systems; the technical problem to be solved is as follows: the improvement of the hardware structure of the high-concentration and low-concentration gas mixing system is provided; the technical scheme for solving the technical problems is as follows: the gas mixing device comprises a high-concentration gas pump station, a low-concentration gas pump station, a gas mixing device and a control system, wherein the high-concentration gas pump station is connected with a high-concentration gas inlet of the gas mixing device through a gas transmission pipeline, and the low-concentration gas pump station is connected with a low-concentration gas inlet of the gas mixing device through a gas transmission pipeline; the high-concentration air inlet is connected with an air inlet of the mixer through a high-concentration pipeline, the low-concentration air inlet is connected with an air inlet of the mixer through a low-concentration pipeline, an air outlet of the mixer is connected with a gas mixing outlet of the gas mixing device through a pipeline, and the gas mixing outlet is connected with a generator set through a gas pipeline; the utility model discloses be applied to high low concentration gas and mix the gas.

Description

Gas mixing system for high-concentration gas and low-concentration gas

Technical Field

The utility model relates to a high low concentration gas mixes gas system belongs to high low concentration gas and mixes gas system technical field.

Background

The gas as a fuel can be used for power generation of an internal combustion engine, and the gas internal combustion engine is divided into a high-concentration unit, a low-concentration unit and a high-concentration unit. The concentration range applicable to the high-concentration unit is 30% -50%, the concentration range applicable to the low-concentration unit is 9% -30%, and the high-concentration unit can normally operate only by supplying gas in the corresponding concentration range.

In the existing gas mixing system, when the concentration of supplied gas is more than 30% or less than 9%, a unit cannot normally operate; when the power generating sets with different high and low concentrations are in different working conditions, the automatic adjustment of the gas mixing amount and parameters can not be realized to enable the gas mixing to reach the range of the gas concentration used by the power generating sets, so that a gas mixing and distributing system is needed to be provided to mix high-concentration gas with low-concentration gas or air, and enable the gas concentration of supplied gas to be automatically adjusted and suitable for the power generating sets with high and low concentrations.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome not enough that exists among the prior art, the technical problem that will solve is: provides an improvement of hardware structure of a high-concentration and low-concentration gas mixing system.

In order to solve the technical problem, the utility model discloses a technical scheme be: a high-concentration and low-concentration gas mixing system comprises a high-concentration gas pump station, a low-concentration gas pump station, a gas mixing device and a control system, wherein the high-concentration gas pump station is connected with a high-concentration gas inlet of the gas mixing device through a gas transmission pipeline, and the low-concentration gas pump station is connected with a low-concentration gas inlet of the gas mixing device through a gas transmission pipeline;

the high-concentration gas inlet is connected with a gas inlet of the mixer through a high-concentration pipeline, the low-concentration gas inlet is connected with a gas inlet of the mixer through a low-concentration pipeline, the mixer is used for mixing high-concentration gas and low-concentration gas, a gas outlet of the mixer is connected with a gas mixing outlet of a gas mixing device through a pipeline, and the gas mixing outlet is connected with a generator set through a gas pipeline;

the low-concentration pipeline is provided with a diffusion pipeline for adjusting the gas concentration of a gas mixing outlet of the gas mixing device;

a flowmeter is arranged on the pipeline of the low-concentration air inlet, and a pressure gauge and a methane concentration meter are arranged on the outlet pipeline of the gas mixing device;

the control system comprises a control box arranged on one side of the gas mixing device, a central controller is arranged in the control box, and the central controller is respectively connected with signal output ends of a flowmeter, a pressure gauge and a methane concentration meter through leads and is used for realizing flow monitoring, performance monitoring and field operation monitoring of the gas mixing device;

the central controller is also connected with the alarm device through a wire and used for alarming and warning the abnormal condition of the on-site monitoring of the gas mixing device, and the central controller is connected with the wire and carries out two-way communication with the power plant DCS through the wireless communication module.

The gas mixing device is further provided with an air system, the air system comprises a centrifugal fan, the centrifugal fan is connected with the low-concentration pipeline through an air pipeline and used for enabling the outlet gas concentration of the gas mixing device to accord with a set range by configuring air when the low-concentration gas pump station stops supplying.

Be provided with the check valve that is used for preventing gas refluence on the low concentration pipeline, all be provided with on the pipeline of high concentration air inlet, low concentration air inlet, the export of mixing the gas and be used for cutting off the electric butterfly valve that the gas admitted under maintenance or emergency, be provided with the flowmeter on the high concentration pipeline, all be provided with the mouth that sweeps that is used for mixing gas system debugging on high concentration pipeline, low concentration pipeline, the pipeline of giving vent to anger of device, the blender of mixing the gas.

An electric regulating valve and a flame arrester are arranged on the diffusing pipeline;

the central controller is also connected with the centrifugal fan, the electric butterfly valve, the second flowmeter and the electric regulating valve through leads respectively;

the mixer is specifically set as a static mixer and used for fully mixing the gas with high and low concentrations and then outputting the gas.

The high-concentration gas pump station and the low-concentration gas pump station are respectively connected with the gas storage cabinet through a high-concentration gas pipeline and a low-concentration gas pipeline and are used for enabling high-concentration gas and low-concentration gas to directly enter the gas storage cabinet for use after the gas mixing device is closed;

and the high-concentration gas pipeline and the low-concentration gas pipeline which are connected with the gas storage cabinet are respectively provided with a pneumatic butterfly valve and a pneumatic blind plate valve.

The high-concentration pipeline, the low-concentration pipeline and the air pipeline are all provided with filtering equipment for filtering the gas at the gas inlet of the gas mixing device;

the gas mixing device is further provided with a safe fire retardant device, the control system further comprises an instrument heat insulation box, the gas mixing device, the control box and the instrument heat insulation box are all integrated on the skid-mounted base, and the skid-mounted base is further provided with a rain cover for preventing rain of the control box and the instrument heat insulation box.

The utility model discloses beneficial effect for prior art possesses does: the gas mixing control system provided by the utility model can match high and low concentration gas to reach the required standard of unit operation, thereby reducing the waste of gas; the gas mixing device has extremely high automatic regulation capacity, the control system can realize automatic regulation no matter under any working condition, the gas mixing device adopts PLC to carry out local centralized control, a PLC control program can meet the field gas mixing operation requirement, and the gas mixing device has the function of remotely transmitting the operation working condition to a DCS (distributed control system) of a power plant in a communication mode; have stability and security concurrently and integrate into one, mix the gas device and adopt sealed box structure, be equipped with methane and reveal monitored control system and ventilation equipment. The safety and the stability of the equipment operation are ensured; meanwhile, the economic benefit can be improved, and the operating efficiency of the generator set is improved.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

fig. 1 is a schematic diagram of the system structure of the present invention;

FIG. 2 is a schematic structural view of the gas mixing device of the present invention;

fig. 3 is a schematic diagram of the circuit structure of the present invention.

In the figure: 1 is a high-concentration gas pump station, 2 is a low-concentration gas pump station, 3 is a gas mixing device, 4 is a control box, 5 is a centrifugal fan, 6 is a gas storage cabinet, 7 is filtering equipment, 8 is a skid-mounted base, 9 is a purging port, 301 is a high-concentration gas inlet, 302 is a low-concentration gas inlet, 303 is a high-concentration pipeline, 304 is a mixer, 306 is a low-concentration pipeline, 308 is a gas mixing outlet, 309 is a diffusing pipeline, 401 is a central controller, 402 is an alarm device, 403 is a wireless communication module, 501 is an air pipeline, 601 is a pneumatic butterfly valve, 602 is a pneumatic blind plate valve, 3011 is an electric butterfly valve, 3021 is a first flowmeter, 3031 is a second flowmeter, 3061 is a check valve, 3071 is a pressure gauge, 3072 is a methane concentration gauge, 3091 is an electric regulating valve, and 3092 is a flame arrester.

Detailed Description

As shown in fig. 1 to 3, the utility model relates to a high-low concentration gas mixing system, which comprises a high-concentration gas pump station 1, a low-concentration gas pump station 2, a gas mixing device 3 and a control system, wherein the high-concentration gas pump station 1 is connected with a high-concentration gas inlet 301 of the gas mixing device 3 through a gas transmission pipeline, and the low-concentration gas pump station 2 is connected with a low-concentration gas inlet 302 of the gas mixing device 3 through a gas transmission pipeline;

the high-concentration gas inlet 301 is connected with a gas inlet of a mixer 304 through a high-concentration pipeline 303, the low-concentration gas inlet 302 is connected with a gas inlet of the mixer 304 through a low-concentration pipeline 306, the mixer 304 is used for mixing high-concentration gas and low-concentration gas, a gas outlet of the mixer 304 is connected with a gas mixing outlet 308 of the gas mixing device 3 through a pipeline, and the gas mixing outlet 308 is connected with a generator set through a gas pipeline;

the low-concentration pipeline 306 is provided with a diffusing pipeline 309 for adjusting the gas concentration of a gas mixing outlet 308 of the gas mixing device 3;

a flow meter 3021 is arranged on a pipeline of the low-concentration air inlet 302, and a pressure gauge 3071 and a methane concentration meter 3072 are arranged on an outlet pipeline of the air mixing device 3;

the control system comprises a control box 4 arranged on one side of the gas mixing device 3, a central controller 401 is arranged inside the control box 4, and the central controller 401 is respectively connected with signal output ends of a flowmeter 3021, a pressure gauge 3071 and a methane concentration meter 3072 through leads and is used for realizing flow monitoring, performance monitoring and on-site operation monitoring of the gas mixing device 3;

the central controller 401 is further connected with an alarm device 402 through a lead for alarming and warning the abnormal condition of the gas mixing device 3 monitored on site, and the central controller 401 is connected with the lead and carries out two-way communication with the power plant DCS through a wireless communication module 403.

Still be provided with air system on the gas mixing device 3, air system includes centrifugal fan 5, centrifugal fan 5 passes through air conduit 501 and links to each other with low concentration pipeline 306 for realize making the export gas concentration of gas mixing device 3 accord with the settlement scope through configuration air when low concentration gas pump station 2 stops supplying.

The low-concentration pipeline 306 is provided with a check valve 3061 for preventing gas backflow, the pipelines of the high-concentration air inlet 301, the low-concentration air inlet 302 and the gas mixing outlet 308 are all provided with an electric butterfly valve 3011 for cutting off gas inflow in overhauling or emergency situations, the high-concentration pipeline 303 is provided with a flow meter 3031, and the high-concentration pipeline 303, the low-concentration pipeline 306, the gas outlet pipeline of the gas mixing device 3 and the mixer 304 are all provided with a purging port 9 for debugging a gas mixing system.

An electric regulating valve 3091 and a flame arrester 3092 are arranged on the diffusing pipeline 309;

the central controller 401 is also connected with a centrifugal fan 5, an electric butterfly valve 3011, a second flowmeter 3031 and an electric regulating valve 3091 through leads;

the mixer 304 is specifically configured as a static mixer, and is used for fully mixing the gas with high and low concentrations and then outputting the gas.

The high-concentration gas pump station 1 and the low-concentration gas pump station 2 are respectively connected with the gas storage cabinet 6 through a high-concentration gas pipeline and a low-concentration gas pipeline, and are used for enabling high-concentration gas and low-concentration gas to directly enter the gas storage cabinet 6 for use after the gas mixing device 3 is closed;

and a pneumatic butterfly valve 601 and a pneumatic blind plate valve 602 are arranged on the high-concentration gas pipeline and the low-concentration gas pipeline which are connected with the high-concentration gas pump station 1, the low-concentration gas pump station 2 and the gas storage cabinet 6.

The high-concentration pipeline 303, the low-concentration pipeline 306 and the air pipeline 501 are all provided with a filtering device 7 for filtering the air at the air inlet of the air mixing device 3;

the gas mixing device 3 is further provided with a safe fire retardant device, the control system further comprises an instrument heat insulation box, the gas mixing device 3, the control box 4 and the instrument heat insulation box are all integrated on the skid-mounted base 8, and the skid-mounted base 8 is further provided with a rain cover for preventing rain of the control box 4 and the instrument heat insulation box.

A gas mixing process control method of a high-concentration unit comprises the following steps:

the method comprises the following steps: setting a gas-gas mixing quantity value, a pressure value and a methane concentration at a gas mixing outlet 308 of the gas mixing device 3 and setting mixed gas parameters at an outlet of a design working condition of the gas mixing device 3 according to the gas concentration of the high-concentration unit;

step two: starting the gas mixing device 3 to start running, switching to the working condition I in the step III when the concentration of the gas coming from the high-concentration gas pump station 1 is within a first set range, switching to the working condition II in the step IV when the concentration of the gas coming from the high-concentration gas pump station 1 is within a second set range, and switching to the working condition III in the step V when the concentration of the gas coming from the high-concentration gas pump station 1 is within a third set range;

step three: the gas coming from the high-concentration gas pump station 1 has a gas concentration larger than the gas purity required by the generator set, the gas coming from the low-concentration gas pump station 2 is completely emptied, after the gas coming from the high-concentration gas pump station 1 meets the required using amount of the generator set, the redundant gas coming from the high-concentration gas pump station is partially emptied, and then the redundant gas comes into the gas mixing device 3 through a gas conveying pipeline to be mixed with air, so that the gas concentration at the outlet of the gas mixing device 3 is kept at a set value;

when the gas concentration of the high-concentration gas pump station 1 is the maximum value of the first set range, setting the maximum mixing air quantity;

step four: when the incoming gas concentration of the high-concentration gas pump station 1 is in a second set range and the incoming gas concentration of the low-concentration gas pump station 2 is greater than a first set value, the incoming gas of the high-concentration gas pump station 1 is less than the required gas purity of a legal unit, all the incoming gas of the high-concentration gas pump station 1 enters the gas mixing device 3, part of the incoming gas of the low-concentration gas pump station 2 is mixed, and the redundant incoming gas of the low-concentration gas pump station 2 is emptied, so that the outlet gas concentration of the gas mixing device 3 is greater than the set value;

step five: and when the total air supply amount is greater than the electricity consumption of the generator set, the emptying pipe of the low-concentration gas pump station 2 is opened to discharge redundant gas.

The mixing amount of the high-concentration gas in the first step is 21000Nm3/h, the pressure is 10kPa, and the concentration of methane is 30-70%; the gas mixing device 3 is designed with the parameters of mixed gas at the working condition outlet: the pressure is more than or equal to 4kPa, the methane concentration is 30-45%, and the gas mixing amount is 32000Nm 3/h;

the first set range in the second step is 46% -70%, the second set range is 33% -46%, and the third set range is 30% -33%;

the set value in the third step is 45 percent;

the first set value in the fourth step is 25%, and the set value of the outlet gas concentration of the gas mixing device 3 in the fourth step is 30%;

the second set value in the fifth step is 30%.

A gas mixing process control method of a low-concentration unit comprises the following steps:

the method comprises the following steps: setting a gas-gas mixing quantity value, a pressure value and a methane concentration at a gas mixing outlet 308 of the gas mixing device 3 according to the gas concentration of the low-concentration unit;

step two: the gas coming from the low-concentration gas pump station 2 passes through a high negative pressure system of the high-concentration gas pump station 1 and is mixed with the low-concentration gas of the high-concentration gas pump station 1;

step three: the gas mixed by adjusting the gas flow of the high-concentration gas and the low-concentration gas to the set concentration and pressure is input into the generator set from the gas outlet of the gas mixing device 3 through a communication pipeline, so that the gas turbine can normally run.

The mixing amount of the low-concentration gas in the first step is 11000Nm3/h, the pressure is 5kPa-8kPa, and the concentration of methane is 25-35%.

The utility model discloses a gas mixing system mainly includes the gas mixing device 3 and the gas mixing control system of complete sets of sled dresses such as safe back-fire relief equipment, valve, metering device, mixes gas device 3 and still supporting weather enclosure. Skid-mounted base 8 and weather enclosure, gas mixing device 3 and supporting control box, instrument insulation can, rain-proof cover etc. are all integrated on skid-mounted base 8. Electric butterfly valves 3011 are arranged on the pipelines of the high-concentration air inlet 301 and the mixed gas outlet 308 of the gas mixing device 3, the system can be cut off in time in maintenance or emergency, and a check valve 3061 is arranged on the low-concentration gas pipeline 306 of the low-concentration gas pump station 2 to prevent gas from flowing backwards. The valve is convenient to control and operate, and zero leakage is achieved; the valve plate of the valve is made of SS304 materials, is sealed by polytetrafluoroethylene, and has the pressure grade of PN 1.0. The electric valve is a mining explosion-proof valve.

An electric control valve is arranged on a low-concentration gas inlet main pipe diffusion pipeline 309 of the gas mixing device 3, the outlet gas concentration of the gas mixing device 3 is adjusted by adjusting the diffusion amount of low-concentration gas, the outlet gas concentration of the gas mixing device 3 is ensured to be 30% -45% when a high-concentration unit operates, and the outlet gas concentration of the low-concentration unit is ensured to be 9% -30% when the low-concentration unit operates. The gas mixing device 3 is provided with an air system, and when the low-concentration gas pump station 2 stops supplying, the gas concentration at the outlet of the gas mixing device 3 can be ensured by matching air. The gas mixing device 3 is provided with a meter to mainly monitor the operation condition of equipment on site, the low-concentration pipeline 306 is provided with a flowmeter 3021, the outlet pipeline of the gas mixing device 3 is provided with a pressure gauge 3071 and a methane concentration meter 3072 to monitor the flow, the performance of the equipment and the operation on site, and necessary filtering equipment is arranged on the inlet high-concentration pipeline 303, the low-concentration pipeline 306 and the air pipeline 501 of the gas mixing device 3 according to the quality requirement of the gas mixing device 3 on gas so as to meet the gas inlet requirement of the gas mixing device. The filter is designed to be convenient to overhaul and maintain, the shell conforms to the relevant regulations of the pressure vessel, the material is SS304 or above stainless steel material, the filtering area is enough, and the pressure loss is not more than 1 kPa. The gas mixing device 3 is arranged at the east side of the gas storage cabinet 6, meets the requirements of safety and explosion prevention, and all pipelines and equipment are grounded in an anti-static manner. The explosion-proof performance of the main and auxiliary equipment (including control valves) is in accordance with the national standard.

The utility model discloses a gas mixing system possesses high automatically regulated ability, no matter be in any kind of operating mode, and automatically regulated is realized to the control system homoenergetic. The gas mixing device 3 adopts local centralized control of PLC, a PLC control program can meet the field gas mixing operation requirement, the function of remotely transmitting the operation condition to the DCS system of the power plant in a communication mode is achieved, 2 industrial Ethernet interfaces are reserved, and the communication protocol adopts a TCP/IP or MODBUS protocol. The gas mixing device 3 is matched with a PLC system industrial personal computer background and can realize the monitoring and control of the whole gas mixing working condition.

All elements are adapted to the requirements of PLC detection control. The control system has the functions of data acquisition, on-line detection, alarming, automatic shutdown and the like: the system has the functions of online detection, alarming, shutdown and the like; the device has the functions of recording and storing historical data; the following signals can be collected and transmitted to the power plant DCS system in a communication mode: a. low concentration gas pipeline flow at the inlet of the gas mixing device, and b, outlet pressure and methane concentration of the gas mixing device.

The utility model discloses a gas mixing system has stability and security concurrently, and device PLC control electrical components chooses for use siemens brand, adopts the nitrogen gas replacement when equipment is shut down, is equipped with corresponding replacement interface. The noise level of the gas mixing device 3 meets the relevant industry standards, and the noise value at the position 1m away from the equipment is ensured to be less than or equal to 75dB (A). The noise is little during operation, mixes gas device 3 and adopts sealed box structure, is equipped with methane and reveals monitored control system and ventilation equipment. The safety and the stability of the equipment operation are guaranteed.

The following describes the gas mixing process control method of the present invention in detail with reference to specific embodiments.

According to the specific actual operation condition of a certain place, three gas conveying pipelines are arranged from a coal-saving pumping station to a power plant, namely a line 1, a line 2 and a line 3, the gas is conveyed to a gas storage cabinet 6 through the line 1 after reaching a vegetable field of the power plant, the line 2 and the line 3 are combined and then conveyed to a generator set through 4 branches after passing through a high negative pressure system of a safety pump station, and the 3 pipelines can be communicated and interconnected at a vegetable field valve well.

1. Aiming at high concentration unit

The high-concentration gas of the malus micromalus coal industry company is 60 percent, the low-concentration gas of the Anyi coal industry company is 15 percent, in order to operate the first-stage and second-stage gas turbine, the high-concentration gas pumped by the malus micromalus coal industry and the low-concentration gas or air pumped by the Anyi coal industry need to be mixed, the concentration of the supplied gas is lower than 45 percent, and the supplied gas enters a gas storage cabinet for storage and is used by 11 power generating sets in the first stage and the second stage.

2. Aiming at low concentration unit

The low-concentration gas of the malus spectabilis coal industry company is 20 percent, and the low-concentration gas of the Anyi coal industry company is 10 percent. When the third-stage gas turbine has debugging conditions, the actual measurement proves that the concentration of the coal low-concentration gas is about 2%, a safety pump station is being modified and the concentration is only 7%, the third-stage gas turbine does not conform to the concentration adaptation range of 9% -30%, and the third-stage gas turbine cannot be debugged and run in a trial mode; according to the equipment condition of 15 machine sets in the third period, when the concentration of supplied gas is more than 30% or less than 9%, the machine sets cannot normally operate; and a gas mixing and distributing system is also designed, so that high-concentration gas drained in the Chinese flowering crabapple coal industry is mixed with low-concentration gas or air drained in the Anyi coal industry, the concentration of supplied gas is lower than 30%, and the supplied gas is supplied to 15 power generating sets in the third period.

The method is characterized in that high-concentration gas (the concentration is more than 40%) of the pseudo-coal is used for debugging, the original air inlet mode of the gas turbine is changed into a mode of introducing air from two sides and blindly opening the other side for testing, and as a result, the gas turbine cannot be debugged and operated in a test mode in the third period.

According to above-mentioned actual power plant's gas pump station behavior, according to the utility model discloses a gas mixes gas process control method and improves high low dense unit respectively, and specific embodiment is as follows:

example 1: aiming at a high-concentration unit;

the working condition I is as follows: when the incoming gas concentration of the miscanthus sinensis coal industry is 46-70%, the incoming gas of the miscanthus sinensis coal industry is higher than the gas purity (9654 Nm 3/h) required by 11 units of the whole plant, the incoming gas of the Anyi coal industry is completely emptied, the incoming gas of the miscanthus sinensis coal industry except the gas consumption of the whole plant is emptied, and then enters the gas mixing device through a No. 1 gas conveying pipeline to be mixed with air (the air can be sucked through a diffusing pipe of the Anyi coal industry), so that the gas concentration of an outlet of the gas mixing device is ensured to be 45%; when the concentration of the malus spectabilis gas is 70 percent, the maximum mixed air amount is 7662Nm 3/h.

Working conditions are as follows: when the incoming gas concentration of the miscanthus sinensis coal industry is 33% -46% and the concentration of the safe incoming gas is more than 25%, the incoming gas of the miscanthus sinensis coal industry is less than the required gas purity (9654 Nm 3/h) of 11 units in the whole plant, all the incoming gas of the miscanthus sinensis coal industry enters a blending device, part of the incoming gas of the safe coal industry needs to be blended, and the redundant part of the safe coal industry is emptied; the gas concentration at the outlet of the gas mixing device is ensured to be more than 30 percent.

Working conditions are as follows: when the incoming gas concentration of the begonia coal industry is 30-33% and the safety incoming gas concentration is more than 30%, the gas mixing device is closed, the begonia incoming gas and the safety incoming gas directly enter the gas storage cabinet for use, and when the total gas supply is more than the total gas consumption of the whole plant, the safety emptying pipe is opened to discharge the redundant gas.

The air mixing device 3 has the design working condition air inlet parameters: the mixing amount of the high-concentration gas is 21000Nm3/h, the pressure is about 10kPa, and the concentration of methane is 30-70%; the mixing amount of the low-concentration gas is 11000Nm3/h, the pressure is about 5kPa (maximum 8 kPa), and the concentration of the methane is 25-35%.

The gas mixing device 3 is designed with the parameters of mixed gas at the working condition outlet: the pressure is more than or equal to 4kPa, the methane concentration is 30-45%, and the gas mixing amount is 32000Nm 3/h.

Example 2: aiming at the low-concentration unit;

(1) in the initial stage, a communication valve of a line 1 and a line 2 is opened at a vegetable valve well, a small amount of high-concentration coal-defining gas is conveyed to a stage three through a safety pump station, a nitrogen making machine of a company is used for providing compressed air, a rubber hose is used for guiding a nitrogen injection port of a low-negative pressure outlet pipeline of the safety pump station from an outlet of a compressed air storage tank of the nitrogen making machine, the compressed air is injected from the nitrogen injection port, the high-concentration coal-defining gas is adjusted to a stage three gas amount by adjusting the opening of the communication valve of the line 1 and the line 2 at the vegetable valve well, the gas concentration after the compressed air is mixed is adjusted to about 20 percent until the gas mixing pressure of the stage three is 6KPa, the requirement of the gas source for debugging of the stage three gas turbines is met, then all 15 gas turbines in the stage complete monomer debugging smoothly, and the equipment defects found in the debugging process are timely.

(2) And in the second stage, the Anyi pump station is completely transformed, the gas supply is recovered, and because the pressure of the Anyi low-concentration gas outlet pipeline is greater than the pressure of the sensible coal high-concentration incoming gas, the pressure of the sensible coal high-concentration incoming gas is improved by using the gas mixing device, so that the Anyi low-concentration gas is mixed into the sensible coal high-concentration gas. The high-concentration coal gas is mixed with the low-concentration gas of the pumping station (in a gas mixing pipeline of the safety pumping station) through a high negative pressure system of the safety pumping station, and the mixed gas is adjusted to a proper concentration (about 20%) and pressure (about 6 KPa) by adjusting the gas amount of the high-concentration gas and the low-concentration gas, so that the three-stage gas turbine can be smoothly connected to the grid for trial operation.

According to the explanation of embodiment 1, embodiment 2, according to the utility model discloses a mix gas technology control method and actually improve the gas pumping station after, two first and three stage combustion engines all can normal operating.

Aiming at a first-stage and second-stage high-concentration unit, if the concentration of gas and gas in the birchleaf coal industry is 46-70%, the unit cannot operate, the annual electric quantity is cumulatively lost by 31798.8 ten thousand degrees, and the gas quantity loss is at least 8456.9040 ten thousand Nm 3; if the incoming gas concentration of the malus spectabilis coal industry is 33% -46% and the safe incoming gas concentration is more than 25%, the unit normally operates and no waste of the gas source exists; if the incoming gas concentration of the malus spectabilis coal industry is 30% -33% and the concentration of the safe incoming gas is more than 30%, the unit can also normally operate; at least 1.61 billion dollars of revenue can be generated all year round.

Aiming at the three-phase low-concentration unit, the unit can normally operate after being put into the system, the power generation is accumulated for 13140 ten thousand degrees all the year, and at least 6688.26 ten thousand yuan of income is generated.

About the utility model discloses what the concrete structure need explain, the utility model discloses a each part module connection relation each other is definite, realizable, except that the special explanation in the embodiment, its specific connection relation can bring corresponding technological effect to based on do not rely on under the prerequisite of corresponding software program execution, solve the utility model provides a technical problem, the utility model provides a model, the connection mode of parts, module, specific components and parts that appear all belong to the prior art such as the published patent that technical staff can acquire before the application day, published journal paper, or common general knowledge, need not to describe in detail for the technical scheme that the present case provided is clear, complete, realizable, and can be according to this technical means or obtain corresponding entity product.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a high low concentration gas mixes gas system, includes high concentration gas pump station (1), low concentration gas pump station (2), mixes gas device (3) and control system, its characterized in that: the high-concentration gas pump station (1) is connected with a high-concentration gas inlet (301) of the gas mixing device (3) through a gas transmission pipeline, and the low-concentration gas pump station (2) is connected with a low-concentration gas inlet (302) of the gas mixing device (3) through a gas transmission pipeline;

the high-concentration air inlet (301) is connected with an air inlet of a mixer (304) through a high-concentration pipeline (303), the low-concentration air inlet (302) is connected with an air inlet of the mixer (304) through a low-concentration pipeline (306), the mixer (304) is used for mixing high-concentration and low-concentration gas, an air outlet of the mixer (304) is connected with a gas mixing outlet (308) of a gas mixing device (3) through a pipeline, and the gas mixing outlet (308) is connected with a generator set through a gas pipeline;

the low-concentration pipeline (306) is provided with a diffusing pipeline (309) for adjusting the gas concentration of a gas mixing outlet (308) of the gas mixing device (3);

a first flowmeter (3021) is arranged on a pipeline of the low-concentration air inlet (302), and a pressure gauge (3071) and a methane concentration meter (3072) are arranged on an outlet pipeline of the air mixing device (3);

the control system comprises a control box (4) arranged on one side of the gas mixing device (3), a central controller (401) is arranged inside the control box (4), and the central controller (401) is respectively connected with signal output ends of a first flowmeter (3021), a pressure gauge (3071) and a methane concentration meter (3072) through leads and is used for realizing flow monitoring, performance monitoring and field operation monitoring of the gas mixing device (3);

the central controller (401) is also connected with the alarm device (402) through a wire and used for alarming and warning the abnormal condition of the on-site monitoring of the gas mixing device (3), and the central controller (401) is connected with the wire and carries out two-way communication with the DCS of the power plant through the wireless communication module (403).

2. The high-low concentration gas mixing system according to claim 1, wherein: still be provided with air system on gas mixing device (3), air system includes centrifugal fan (5), centrifugal fan (5) link to each other with low concentration pipeline (306) through air conduit (501) for realize making the export gas concentration of gas mixing device (3) accord with the settlement range through configuration air when low concentration gas pump station (2) stop supplying.

3. The high-low concentration gas mixing system according to claim 2, wherein: be provided with check valve (3061) that is used for preventing gas refluence on low concentration pipeline (306), all be provided with on the pipeline of high concentration air inlet (301), low concentration air inlet (302), gas mixing outlet (308) and be used for cutting off the electric butterfly valve (3011) that the gas was admitted air under maintenance or emergency, be provided with second flowmeter (3031) on high concentration pipeline (303), all be provided with on outlet pipe way, the blender (304) of high concentration pipeline (303), low concentration pipeline (306), gas mixing device (3) and be used for mixing the purge opening (9) of gas system debugging.

4. The high-low concentration gas mixing system according to claim 3, wherein: an electric regulating valve (3091) and a flame arrester (3092) are arranged on the diffusing pipeline (309);

the central controller (401) is also connected with the centrifugal fan (5), the electric butterfly valve (3011), the second flowmeter (3031) and the electric regulating valve (3091) through leads respectively;

the mixer (304) is specifically set as a static mixer and used for fully mixing the gas with high and low concentrations and then outputting the gas.

5. The high-low concentration gas mixing system according to claim 4, wherein: the high-concentration gas pump station (1) and the low-concentration gas pump station (2) are respectively connected with the gas storage cabinet (6) through a high-concentration gas pipeline and a low-concentration gas pipeline and used for enabling high-concentration gas and low-concentration gas to directly enter the gas storage cabinet (6) for use after the gas mixing device (3) is closed;

and a pneumatic butterfly valve (601) and a pneumatic blind plate valve (602) are arranged on the high-concentration gas pipeline and the low-concentration gas pipeline which are connected with the high-concentration gas pump station (1) and the low-concentration gas pump station (2) and the gas storage cabinet (6).

6. The high-low concentration gas mixing system according to claim 5, wherein: the high-concentration pipeline (303), the low-concentration pipeline (306) and the air pipeline (501) are respectively provided with a filtering device (7) for filtering the air at the air inlet of the air mixing device (3);

mix and still be provided with safe back-fire relief equipment on gas device (3), control system still includes the instrument insulation can, mix gas device (3), control box (4), instrument insulation can all integrate on sled dress base (8), still be provided with rain-proof cover on sled dress base (8) and be used for realizing the rain-proof of control box (4), instrument insulation can.

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