CN114542945B - Hydrogen energy equipment pry body capable of reducing explosion risk and use method - Google Patents

Abstract

The invention provides a hydrogen energy equipment pry body capable of reducing explosion risk, which comprises a pry body; the inner cavity of the pry body is divided into a first inner cavity and a second inner cavity by a partition plate; the front side surface of the pry body main body is provided with a front door; the front door comprises a first front door matched with the first inner cavity for use and a second front door matched with the second inner cavity for use; side doors are respectively arranged on two side surfaces of the pry body, and the two side doors are respectively matched with the first inner cavity and the second inner cavity for use; according to the hydrogen energy equipment pry body capable of reducing explosion risk, the electric control system is added on the hydrogen energy equipment pry body, the original manual switch door is changed into the electric switch door, and the electric control system is interlocked with the hydrogen concentration sensor in the pry body, so that the problem of hydrogen enrichment of the hydrogen energy equipment is solved, and accidents such as hydrogen combustion, explosion and detonation are avoided.

Description

Hydrogen energy equipment pry body capable of reducing explosion risk and use method

Technical Field

The invention relates to a pry body, in particular to a hydrogen energy equipment pry body capable of reducing explosion risk and a use method thereof.

Background

The hydrogen energy has the advantages of wide source, high energy efficiency, renewable and zero pollution of combustion products, and the like, and is becoming the focus of energy innovation and re-industrialization of the main developed economy and nations in the world. In recent years, hydrogen energy development strategies have been developed in the united states, japan, china, korea, the european union, etc., and hydrogen energy automobiles have been developed with great force, and the construction of hydrogen energy infrastructure such as hydrogen stations has been actively advanced.

In the construction process of the hydrogen energy industry infrastructure, the installation form of the hydrogen energy equipment can be divided into a fixed type and a skid-mounted type. The skid-mounted equipment has the advantages of high integration level, convenience in transportation, long service life, convenience in installation and the like, and most of the existing hydrogen energy equipment in China is installed. However, because hydrogen has the characteristics of small density, fast diffusion, easy leakage, wide combustion explosion range and the like, the problem of hydrogen enrichment is extremely easy to occur in closed skid-mounted equipment, and the safety risk is higher, so that abnormal accidents such as fire and explosion are caused.

Chinese patent CN113390016a discloses a skid-mounted hydrogenation station and an inert filling protection method thereof, wherein an inert filling protection device is arranged in the skid-mounted hydrogenation station, and when leakage occurs in the skid body of the hydrogenation station, the concentration of hydrogen is rapidly reduced by rapidly filling inert gas into the skid body of the hydrogenation station. Chinese patent CN113390015a discloses a skid-mounted hydrogenation station and a micro-positive pressure protection method thereof, wherein a micro-positive pressure protection system is arranged in the skid-mounted hydrogenation station, so that stable micro-positive pressure is maintained in a closed space of the skid-mounted hydrogenation station, and the formation of flammable hydrogen atmosphere and the occurrence of extreme accidents such as hydrogen flame and hydrogen explosion are essentially avoided.

However, the prior art has the following disadvantages:

1. whether the inert protection device or the micro-positive pressure protection method is adopted, a large amount of inert gas is filled in the pry body, so that a stable gas source is required to be provided for equipment, and certain requirements are placed on the place where the equipment is placed.

2. The micro-positive pressure protection method has certain requirements on the pressure resistance of the pry body, is not suitable for the pry body with holes and holes on the surface, and meanwhile, the detected gas pressure is not the partial pressure of hydrogen or oxygen, but the gauge pressure of the mixed gas in the pry body, so that the positive correlation between the pressure in the pry body, the hydrogen concentration and the oxygen concentration is influenced.

Accordingly, improvements in the art are needed.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an efficient hydrogen energy equipment pry body capable of reducing explosion risks.

In order to solve the technical problems, the invention provides a hydrogen energy equipment pry body capable of reducing explosion risk, which comprises a pry body;

the inner cavity of the pry body is divided into a first inner cavity and a second inner cavity by a partition plate;

the front side surface of the pry body main body is provided with a front door; the front door comprises a first front door matched with the first inner cavity for use and a second front door matched with the second inner cavity for use;

side doors are respectively arranged on two side surfaces of the pry body, and the two side doors are respectively matched with the first inner cavity and the second inner cavity for use;

the top of the pry body is provided with a top cover, and the top cover is provided with an emptying fan communicated with the first inner cavity and the second inner cavity, wherein the emptying fan comprises a first emptying fan and a second emptying fan;

the bottom of the pry body main body is a base;

an opening and closing controller is arranged on the pry body; the opening and closing controller comprises a first opening and closing controller, a second opening and closing controller and a third opening and closing controller;

the first opening and closing controller is arranged on the first front door and used for controlling the opening and closing of the first front door;

the second opening and closing controller is arranged on the second front door and used for controlling the opening and closing of the second front door;

the third opening and closing controller is arranged on the side door and used for controlling the opening and closing of the side door; the number of the third opening and closing controllers is two, and the third opening and closing controllers are in one-to-one correspondence with the two side doors;

hydrogen concentration sensors are arranged in the first inner cavity and the second inner cavity.

As an improvement on the hydrogen energy equipment pry body capable of reducing the explosion risk, the invention comprises the following steps:

the hydrogen concentration sensor comprises a first hydrogen concentration sensor and a second hydrogen concentration sensor, and the first hydrogen concentration sensor and the second hydrogen concentration sensor are respectively arranged in a first inner cavity and a second inner cavity of the pry body; the number of the first hydrogen concentration sensor and the second hydrogen concentration sensor are two.

As an improvement on the hydrogen energy equipment pry body capable of reducing the explosion risk, the invention comprises the following steps:

one hydrogen concentration sensor is arranged at the vertex angle closest to the dense area of the hydrogen pipeline in the first inner cavity and the second inner cavity; the other hydrogen concentration sensor is arranged at the midpoint of the pry-body partition plate; two hydrogen concentration sensors are arranged at the top of the inner cavity of the pry body.

The invention also provides a method for using the hydrogen energy equipment pry body capable of reducing explosion risk, which comprises the following steps:

step 1: the hydrogen concentration sensor detects the hydrogen content in the inner cavity; executing the step 2;

step 2: judging according to the hydrogen content in the pry body detected by the detection values of the hydrogen concentration sensors in the step 1 and a preset upper limit value of the hydrogen content, and executing the step 3 if the detected hydrogen content in the pry body in the step 1 is more than or equal to the upper limit value of the hydrogen content; if the hydrogen content in the pry body detected in the step 1 is less than the upper limit value of the hydrogen content, returning to the step 1;

step 3: the opening and closing controller controls the opening of the front door and the side door corresponding to the inner cavity, the hydrogen concentration sensor detects the hydrogen content in the inner cavity, and the step 4 is executed;

step 4: judging according to the detected hydrogen content in the sled body and the preset lower limit value of the hydrogen content in the sled body in the step 3, and executing the step 5 if the detected hydrogen content in the sled body by the two sensors in the step 3 is smaller than the lower limit value of the hydrogen content; if the detected hydrogen content in the pry body in the step 3 is more than or equal to the lower limit value of the hydrogen content, returning to the step 3;

step 5: the opening and closing controller controls the door to be closed, and the step 1 is executed again.

As an improvement on the use method of the hydrogen energy equipment pry body capable of reducing the explosion risk, the invention comprises the following steps:

in step 3:

when the detection value of one hydrogen concentration sensor is larger than or equal to the upper limit value of the hydrogen content and the detection value of the other hydrogen concentration sensor is smaller than the lower limit value of the hydrogen content, the opening of the door is controlled to be 50%, and the door is opened by half;

when the detection value of one hydrogen concentration sensor in the inner cavity is more than or equal to the upper limit value of the hydrogen content and the detection value of the other hydrogen concentration sensor is more than or equal to the lower limit value of the hydrogen content, controlling the opening of the door to be 100%, and completely opening the door;

when the detection values of the two hydrogen concentration sensors in the inner cavity are equal to or greater than the upper limit value of the hydrogen content, the opening of the control door is 100%, and the door is completely opened.

As an improvement on the use method of the hydrogen energy equipment pry body capable of reducing the explosion risk, the invention comprises the following steps:

and (4) after the door is opened, simultaneously opening the evacuation fan, running the evacuation fan at 2m/s until the detection values of the two hydrogen concentration sensors are below 20% of the upper limit value, closing the evacuation fan, continuously opening the door for 15 minutes, and executing the subsequent step (4).

The technical advantages of the hydrogen energy equipment pry body capable of reducing explosion risk are as follows:

according to the hydrogen energy equipment pry body capable of reducing explosion risk, the original manual switch door is changed into the electric switch door by adding the electric control system on the hydrogen energy equipment pry body, the electric control system is interlocked with the hydrogen concentration sensor in the pry body, when the hydrogen content in the air is higher than 1% (volume fraction), the control system controls the pry body door to be opened, and the hydrogen evacuation is realized by utilizing the characteristics of small hydrogen density, strong diffusivity and the like and matching with a pry body fan or natural ventilation; when the hydrogen content in the air is lower than 0.4% (volume fraction), the control system controls the pry body door to be closed, so that the problem of hydrogen enrichment of hydrogen energy equipment is solved, and accidents such as hydrogen combustion, explosion and detonation are avoided.

The invention changes the control property of the pry body of the existing hydrogen energy equipment from manual control to electric control, and has higher intelligent and reliability degrees;

the invention combines the advantages of the fixed type and the skid-mounted type, and utilizes the opening and closing of the skid to regulate the hydrogen concentration of the hydrogen energy equipment.

Compared with the prior art, the application of the invention improves the applicability and economy of the hydrogen energy equipment, and no additional inert gas source is needed.

Compared with the prior art, the hydrogen concentration control method has the advantages that the control precision and the control effect of the hydrogen concentration are improved, and once the concentration is higher and the pry door is opened, the hydrogen concentration in the system is achieved by utilizing the characteristics of the hydrogen.

Drawings

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

FIG. 1 is a schematic view of a skid for a hydrogen energy apparatus for reducing the risk of explosion according to the present invention;

FIG. 2 is a schematic flow chart of a method for using a skid of a hydrogen energy apparatus for reducing explosion risk according to the present invention.

Detailed Description

The invention will be further described with reference to specific examples, but the scope of the invention is not limited thereto.

Embodiment 1, a skid for hydrogen energy equipment capable of reducing explosion risk, as shown in fig. 1, comprises a rectangular skid body 1;

the inner cavity of the pry body 1 is divided into a first inner cavity and a second inner cavity by a partition plate;

the front side surface of the pry body main body 1 is provided with a front door; the front door comprises a first front door 2a matched with the first inner cavity and a second front door 2b matched with the second inner cavity;

the two side surfaces of the pry body 1 are respectively provided with a side door 7, and the two side doors 7 are respectively matched with the first inner cavity and the second inner cavity for use;

the top of the pry body 1 is provided with a top cover 6, the top cover 6 is provided with an emptying fan communicated with the inside of the pry body, and the emptying fan comprises a first emptying fan 5a and a second emptying fan 5b.

The bottom of the pry body 1 is a base 8.

The pry body 1 is provided with an opening and closing controller; the opening and closing controllers include a first opening and closing controller 4a, a second opening and closing controller 4b, and a third opening and closing controller 4c;

the first opening and closing controller 4a is installed on the first front door 2a and controls the opening and closing of the first front door 2 a;

the second opening and closing controller 4b is installed on the second front door 2b and controls the opening and closing of the second front door 2b;

the third opening and closing controller 4c is installed on the side door 7 and controls the opening and closing of the side door 7; the number of the third opening/closing controllers 4c is two, and the third opening/closing controllers correspond to the two side doors 7 one by one.

The inside of the pry body 1 is provided with a hydrogen concentration sensor, the hydrogen concentration sensor comprises a first hydrogen concentration sensor 4a and a second hydrogen concentration sensor 4b, and the first hydrogen concentration sensor 4a and the second hydrogen concentration sensor 4b are respectively arranged in a first inner cavity and a second inner cavity of the pry body 1; the number of the first hydrogen concentration sensor 4a and the second hydrogen concentration sensor 4b is two, namely, the first inner cavity and the second inner cavity are provided with two hydrogen concentration sensors.

One of the hydrogen concentration sensors is arranged at the top angle closest to the dense area of the hydrogen pipeline (when the pry door is closed, the place where the hydrogen concentration in the inner cavity is most likely to exceed the standard) in the first inner cavity and the second inner cavity; the other hydrogen concentration sensor is arranged at the midpoint of the pry body partition plate (the place where the hydrogen concentration in the inner cavity is most likely to exceed the standard when the pry body door is opened); two hydrogen concentration sensors are arranged at the top of the inner cavity of the pry body 1.

According to the hydrogen energy equipment pry body capable of reducing explosion risk, the original manual switch door is changed into the electric switch door by adding the electric control system on the hydrogen energy equipment pry body, and the electric control system is interlocked with the hydrogen concentration sensor in the pry body;

when the hydrogen concentration sensor detects that the hydrogen content in the air is higher than the upper limit value, the opening and closing controller controls the prying body main door 2 and the side door 7 to be opened, and the characteristics of small hydrogen density, strong diffusivity and the like are utilized to realize hydrogen evacuation by being matched with a prying body fan or natural ventilation; when the hydrogen concentration sensor detects that the content of hydrogen in the air is low to a lower limit value, the opening and closing controller controls the prying body main door 2 and the side door 7 to be closed, so that the problem of hydrogen enrichment of hydrogen energy equipment is solved, and accidents such as hydrogen combustion, explosion and detonation are avoided.

The specific control method is as follows, and comprises the following steps (the concentration control of the two inner cavities is independent, and the control of the first inner cavity is taken as an example here):

step 1: the hydrogen concentration sensor detects the hydrogen content in the inner cavity;

step 2: judging according to the hydrogen content in the pry body detected by the detection values of the hydrogen concentration sensors in the step 1 and a preset upper limit value of the hydrogen content, and executing the step 3 if the detected hydrogen content in the pry body in the step 1 is more than or equal to the upper limit value of the hydrogen content; if the hydrogen content in the pry body detected in the step 1 is less than the upper limit value of the hydrogen content, returning to the step 1;

step 3: the opening and closing controller controls the opening of the front door and the side door 7 corresponding to the inner cavity, the hydrogen concentration sensor detects the hydrogen content in the inner cavity again, and the step 4 is executed;

when the detection value of one hydrogen concentration sensor is larger than or equal to the upper limit value of the hydrogen content and the detection value of the other hydrogen concentration sensor is smaller than the lower limit value of the residual hydrogen content in the inner cavity, the opening of the door is controlled to be 50%, and the door is opened by half;

when the detection value of one hydrogen concentration sensor in the inner cavity is more than or equal to the upper limit value of the hydrogen content, and when the detection value of the other hydrogen concentration sensor is more than or equal to the lower limit value of the hydrogen content, controlling the opening of the door to be 100%, and completely opening the door;

when the detection values of the two hydrogen concentration sensors in the inner cavity are equal to or greater than the upper limit value of the hydrogen content, the opening of the control door is 100%, and the door is completely opened.

And (4) after the door is opened, simultaneously opening the evacuation fan, running the evacuation fan at 2m/s until the detection values of the two hydrogen concentration sensors are below 20% of the upper limit value, closing the evacuation fan, continuously opening the door for 15 minutes, and executing the subsequent step (4).

Step 4: judging according to the detected hydrogen content in the sled body and the preset lower limit value of the hydrogen content in the sled body in the step 3, and executing the step 5 if the detected hydrogen content in the sled body by the two sensors in the step 3 is smaller than the lower limit value of the hydrogen content; if the detected hydrogen content in the pry body in the step 3 is more than or equal to the lower limit value of the hydrogen content, returning to the step 3;

step 5: the opening and closing controller controls the door to be closed, and the step 1 is executed again.

The opening and closing control threshold (the upper limit value of the hydrogen content and the lower limit value of the hydrogen content) can be adjusted according to actual application scenes;

under the condition that the hydrogen equipment normally operates, starting a hydrogen detection mode, wherein the value of a control threshold value adopts 1% (the upper limit value of the hydrogen content) and 0.4% (the lower limit value of the hydrogen content), and comparing the detection result of the hydrogen concentration sensor with the upper limit value of the hydrogen content and the lower limit value of the hydrogen content in the control step;

under the condition that pressure and temperature of the hydrogen equipment are abnormal, an explosion-proof early warning mode is started, the value of a control threshold value is 0.5% (the upper limit value of hydrogen content), the detection result of the hydrogen concentration sensor in the control step is compared with the upper limit value of hydrogen content, and step 4 and step 5 are omitted.

The controllable area of the pry body of the hydrogen energy equipment pry body capable of reducing the explosion risk can be changed according to design requirements, and the pry body can be a door with a larger area, and can be a small window and an edge with a smaller area.

Finally, it should also be noted that the above list is merely a few specific embodiments of the present invention. Obviously, the invention is not limited to the above embodiments, but many variations are possible. All modifications directly derived or suggested to one skilled in the art from the present disclosure should be considered as being within the scope of the present invention.

Claims (6)

1. Can reduce hydrogen energy equipment sled body of explosion risk, its characterized in that: comprises a pry body (1);

the inner cavity of the pry body (1) is divided into a first inner cavity and a second inner cavity by a partition plate;

the front side surface of the pry body main body (1) is provided with a front door; the front door comprises a first front door (2 a) matched with the first inner cavity for use and a second front door (2 b) matched with the second inner cavity for use;

side doors (7) are respectively arranged on two side surfaces of the pry body (1), and the two side doors (7) are respectively matched with the first inner cavity and the second inner cavity for use;

the top of the prying body main body (1) is provided with a top cover (6), the top cover (6) is provided with an emptying fan communicated with the first inner cavity and the second inner cavity, and the emptying fan comprises a first emptying fan (5 a) and a second emptying fan (5 b);

the bottom of the prying body main body (1) is provided with a base (8);

an opening and closing controller is arranged on the prying body main body (1); the opening and closing controller comprises a first opening and closing controller (4 a), a second opening and closing controller (4 b) and a third opening and closing controller (4 c);

the first opening and closing controller (4 a) is arranged on the first front door (2 a) and controls the opening and closing of the first front door (2 a);

the second opening and closing controller (4 b) is arranged on the second front door (2 b) and controls the opening and closing of the second front door (2 b);

the third opening and closing controller (4 c) is arranged on the side door (7) and controls the opening and closing of the side door (7); the number of the third opening and closing controllers (4 c) is two, and the third opening and closing controllers are in one-to-one correspondence with the two side doors (7);

hydrogen concentration sensors are arranged in the first inner cavity and the second inner cavity.

2. The hydrogen energy equipment skid for reducing explosion risk according to claim 1, wherein:

the hydrogen concentration sensor comprises a first hydrogen concentration sensor (4 a) and a second hydrogen concentration sensor (4 b), and the first hydrogen concentration sensor (4 a) and the second hydrogen concentration sensor (4 b) are respectively arranged in a first inner cavity and a second inner cavity of the pry body (1); the number of the first hydrogen concentration sensor (4 a) and the second hydrogen concentration sensor (4 b) are two.

3. The hydrogen energy equipment skid for reducing explosion risk according to claim 2, wherein:

one hydrogen concentration sensor is arranged at the vertex angle closest to the dense area of the hydrogen pipeline in the first inner cavity and the second inner cavity; the other hydrogen concentration sensor is arranged at the midpoint of the pry-body partition plate; two hydrogen concentration sensors are arranged at the top of the inner cavity of the pry body (1).

4. A method of using a reduced explosion risk hydrogen power plant skid as claimed in any one of claims 1 to 3, comprising: the method comprises the following steps:

step 1: the hydrogen concentration sensor detects the hydrogen content in the inner cavity; executing the step 2;

step 2: judging according to the hydrogen content in the pry body detected by the detection values of the hydrogen concentration sensors in the step 1 and a preset upper limit value of the hydrogen content, and executing the step 3 if the detected hydrogen content in the pry body in the step 1 is more than or equal to the upper limit value of the hydrogen content; if the hydrogen content in the pry body detected in the step 1 is less than the upper limit value of the hydrogen content, returning to the step 1;

step 3: the opening and closing controller controls the opening of a front door and a side door (7) corresponding to the inner cavity, the hydrogen concentration sensor detects the hydrogen content in the inner cavity, and the step 4 is executed;

step 4: judging according to the detected hydrogen content in the sled body and the preset lower limit value of the hydrogen content in the sled body in the step 3, and executing the step 5 if the detected hydrogen content in the sled body by the two sensors in the step 3 is smaller than the lower limit value of the hydrogen content; if the detected hydrogen content in the pry body in the step 3 is more than or equal to the lower limit value of the hydrogen content, returning to the step 3;

step 5: the opening and closing controller controls the door to be closed, and the step 1 is executed again.

5. The method for using a skid for hydrogen energy equipment capable of reducing explosion risk according to claim 4, wherein the method comprises the following steps:

in step 3:

when the detection value of one hydrogen concentration sensor is larger than or equal to the upper limit value of the hydrogen content and the detection value of the other hydrogen concentration sensor is smaller than the lower limit value of the hydrogen content, the opening of the door is controlled to be 50%, and the door is opened by half;

when the detection value of one hydrogen concentration sensor in the inner cavity is more than or equal to the upper limit value of the hydrogen content, and when the detection value of the other hydrogen concentration sensor is more than or equal to the lower limit value of the hydrogen content, controlling the opening of the door to be 100%, and completely opening the door;

when the detection values of the two hydrogen concentration sensors in the inner cavity are equal to or greater than the upper limit value of the hydrogen content, the opening of the control door is 100%, and the door is completely opened.

6. The method of claim 5, wherein the step of using the skid for hydrogen energy equipment is characterized by comprising the steps of:

and after the door is opened, simultaneously opening the evacuation fan, running the evacuation fan at 2m/s until the detection values of the two hydrogen concentration sensors reach below 20% of the upper limit value, closing the evacuation fan, and continuing to open the door for 15 minutes.