CN214948265U - Safety monitoring and emergency management system for hydrogenation station - Google Patents

Abstract

The utility model provides a hydrogen station safety monitoring and emergency management system, including following: the system comprises a video monitoring system, a hydrogen leakage detection system, a hydrogen loading, unloading and charging pressure and temperature monitoring system, an electrostatic alarm system and a combustible gas alarm system; the video monitoring system, the hydrogen leakage detection system, the hydrogen connecting, disconnecting and charging pressure and temperature monitoring system, the static alarm system and the combustible gas alarm system are all connected with the remote server through Ethernet. The utility model discloses a hydrogen station enterprise provides hydrogen station safety monitoring and emergency management and provides the solution of accomplishing, for the administrative department at different levels of enterprise in time provides the information of emergency management and processing, for preventing the accident enlargement, responds rapidly that accident emergency treatment provides decision-making service to ensure enterprise property and personnel safety.

Description

Safety monitoring and emergency management system for hydrogenation station

Technical Field

The utility model relates to a hydrogenation station field especially relates to a hydrogenation station safety monitoring and emergency management system.

Background

Safety monitoring in the existing operation hydrogen filling station adopts the state parameters of safety operation equipment to record on site, and adopts paper recording and manual inspection modes to check whether the safety equipment operates normally or not. Among various hidden dangers of the hydrogen adding station, the hidden danger degree of fire and explosion accidents caused by hydrogen TT vehicle leakage, hydrogen machine leakage, static electricity, electric appliance spark and open fire is very serious. In the last two years, some hydrogenation stations build security video monitoring systems and service management systems, but the systems can only meet the requirements of anti-theft and anti-robbery of the hydrogenation stations and management of operation data, and the safety monitoring and management of the hydrogenation stations are not realized on the basis of accident sources according to the characteristic of safety monitoring of the hydrogenation stations; for accident hidden dangers and management loopholes in daily operation of a hydrogen station, a competent department lacks effective supervision means, and related information of an accident site cannot be rapidly and timely acquired after the accident occurs, so that the development of emergency rescue work is seriously influenced.

SUMMERY OF THE UTILITY MODEL

In view of this, to above technical problem, the utility model provides a pair of hydrogenation station safety monitoring and emergency management system includes: the system comprises a video monitoring system, a hydrogen leakage detection system, a hydrogen loading, unloading and charging pressure and temperature monitoring system, an electrostatic alarm system, a combustible gas alarm system and a server; the video monitoring system, the hydrogen leakage detection system, the hydrogen connecting, disconnecting and charging pressure and temperature monitoring system, the static alarm system and the combustible gas alarm system are all connected with the server through Ethernet.

Further, the video monitoring system comprises a video monitoring device installed in: the system comprises a real-time monitoring camera at an inlet and an outlet of a field hydrogenation station, a real-time monitoring camera in an operation area and an office area of each hydrogenation device, an explosion-proof monitoring camera in a hydrogen receiving area and explosion-proof monitoring cameras on explosion-proof walls around the hydrogenation station.

Further, the hydrogen gas receiving, discharging and charging pressure and temperature monitoring system comprises a pressure sensor, a temperature sensor and a temperature sensor, wherein the pressure sensor is installed on the hydrogen gas receiving, discharging and charging pressure and temperature monitoring system and comprises: temperature transmitter and pressure transmitter at the gas unloading cabinet, hydrogenation machine and hydrogen compressor.

Further, the static alarm system comprises a sensor installed on: and electrostatic detectors and audible and visual alarms at the filling positions of the TT vehicle and the hydrogen fuel cell vehicle.

Further, the combustible gas alarm system comprises a gas alarm device installed on: and combustible gas detection alarm instruments at the gas unloading cabinet, the hydrogenation machine and the compressor.

The server includes: the system comprises a video monitoring display unit, a hydrogen leakage detection positioning unit, a hydrogen connecting, disconnecting and charging pressure and temperature monitoring unit, a grading early warning analysis unit and a safety statistic unit.

The utility model provides a beneficial effect is: the method provides a complete solution for safety monitoring and emergency management of the hydrogen station for the hydrogen station enterprises, provides information of emergency management and treatment for management departments at all levels of the enterprises in time, and provides decision-making service for preventing accident expansion and rapidly responding to accident emergency treatment, thereby ensuring the safety of property and personnel of the enterprises.

Drawings

Fig. 1 is a structural diagram of the safety monitoring and emergency management system of the hydrogen station of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be further described below with reference to the accompanying drawings.

Referring to fig. 1, a safety monitoring and emergency management system for a hydrogen refueling station includes the following components:

the system comprises a video monitoring system, a hydrogen leakage detection system, a hydrogen loading, unloading and charging pressure and temperature monitoring system, an electrostatic alarm system, a combustible gas alarm system and a server; the video monitoring system, the hydrogen leakage detection system, the hydrogen connecting, disconnecting and charging pressure and temperature monitoring system, the static alarm system and the combustible gas alarm system are all connected with the server through Ethernet.

The video monitoring system comprises a video monitoring device installed in: the system comprises a real-time monitoring camera at an inlet and an outlet of a field hydrogenation station, a real-time monitoring camera in an operation area and an office area of each hydrogenation device, an explosion-proof monitoring camera in a hydrogen receiving area and explosion-proof monitoring cameras on explosion-proof walls around the hydrogenation station.

The hydrogen receiving, unloading and filling pressure and temperature monitoring system comprises a hydrogen receiving, unloading and filling pressure and temperature monitoring system installed on: temperature transmitter and pressure transmitter at the gas unloading cabinet, hydrogenation machine and hydrogen compressor.

Real-time data of the temperature and the pressure of each device are transmitted to a PLC system of the hydrogenation station for gathering, and the PLC system is connected with a field safety monitoring system through an RS485 communication interface;

the electrostatic warning system comprises a sensor installed on: and electrostatic detectors and audible and visual alarms at the filling positions of the TT vehicle and the hydrogen fuel cell vehicle.

The combustible gas alarm system comprises a gas alarm device installed in: and combustible gas detection alarm instruments at the gas unloading cabinet, the hydrogenation machine and the compressor.

The detection alarm instrument is connected with the safety monitoring and emergency management system of the hydrogen station by an RS485 communication/RS 232 interface.

The hydrogen leak detection system includes a hydrogen sensor installed in: a hydrogen gas detection alarm instrument in areas of TT vehicle, gas discharge cabinet, hydrogenation machine and hydrogen compressor; the hydrogen gas detection alarm instrument can monitor the hydrogen gas leakage value in real time and store detection information. Each hydrogen detection alarm instrument is connected with the safety monitoring and emergency management system of the hydrogen station by an RS485 communication/RS 232 interface.

The server includes: the system comprises a video monitoring display unit, a hydrogen leakage detection positioning unit, a hydrogen connecting, disconnecting and charging pressure and temperature monitoring unit, a grading early warning analysis unit and a safety statistic unit.

The video monitoring display unit is used for displaying monitoring pictures of all areas acquired by the video monitoring system;

the hydrogen leakage detection positioning unit corresponds to the hydrogen leakage detection system, the hydrogen gas detection alarm instrument in the monitoring area detects whether the hydrogen concentration changes, and the corresponding point is determined to have hydrogen leakage according to the changed numerical value.

The hydrogen receiving, discharging and charging pressure and temperature monitoring unit is used for calculating the stock of the TT vehicles according to the real-time temperature and pressure information of the TT vehicles of each hydrogenation station, forming a stock report and sending the report to the headquarters through the remote server, so that the headquarters can conveniently monitor and manage.

The grading early warning analysis unit is used for carrying out early warning analysis on all information of other systems, and specifically comprises the following steps:

the temperature and pressure of a TT vehicle, a fuel cell vehicle and a hydrogen compressor of the hydrogenation station, the combustible gas concentration of a gas unloading area, the hydrogen compressor and a filling area in the hydrogenation station, the video images of an inlet and an outlet of the hydrogenation station, an equipment area and an office area are collected, displayed and analyzed in real time, and the accident is early warned and alarmed.

Meanwhile, high alarm values and alarm conditions are respectively set for the gas concentration, the pressure and temperature safety parameters of the TT vehicle and the hydrogen storage tank so as to determine the alarm conditions of different levels; the server compares the real-time safety parameter information with the alarm value and judges whether the alarm occurs and which level of alarm;

if the alarm occurs, the server host automatically calls out the video image of the alarm point, pops up the prompt information of emergency disposal, carries out local video recording and starts acousto-optic alarm, and sends alarm information to related personnel through short message sending equipment to realize linkage alarm. And automatically uploading the alarm information to a headquarter system, and actively uploading the safety parameter information and the video image information of the alarm point after the headquarter system is connected with a field system.

And the safety statistical unit is used for performing statistical analysis on the alarm information of the hydrogen station in a set time period, analyzing according to the statistical results of the alarm type, the alarm times and the disposal measure conditions, grading the safety condition of the gas station to form a safety condition statistical report of the hydrogen station, and dynamically evaluating the safety management level in the station as the basis for grading supervision.

And the resource information management unit is used for inputting, modifying, deleting, inquiring and counting the resource information of the hydrogen station TT, the hydrogen storage tank, the hydrogen engine, the fire-fighting equipment and the surrounding emergency rescue resource information, and uploading the resource information to the headquarter system regularly through a remote server.

The utility model has the advantages that: the method provides a complete solution for safety monitoring and emergency management of the hydrogen station for the hydrogen station enterprises, provides information of emergency management and treatment for management departments at all levels of the enterprises in time, and provides decision-making service for preventing accident expansion and rapidly responding to accident emergency treatment, thereby ensuring the safety of property and personnel of the enterprises.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The safety monitoring and emergency management system for the hydrogen station is characterized in that: the method comprises the following steps: the system comprises a video monitoring system, a hydrogen leakage detection system, a hydrogen loading, unloading and charging pressure and temperature monitoring system, an electrostatic alarm system and a combustible gas alarm system; the video monitoring system, the hydrogen leakage detection system, the hydrogen connecting, disconnecting and charging pressure and temperature monitoring system, the static alarm system and the combustible gas alarm system are all connected with the remote server through Ethernet.

2. The hydrogen station safety monitoring and emergency management system of claim 1, wherein: the video monitoring system comprises a video monitoring device installed in: the system comprises a real-time monitoring camera at an inlet and an outlet of a field hydrogenation station, a real-time monitoring camera in an operation area and an office area of each hydrogenation device, an explosion-proof monitoring camera in a hydrogen receiving area and explosion-proof monitoring cameras on explosion-proof walls around the hydrogenation station.

3. The hydrogen station safety monitoring and emergency management system of claim 1, wherein: the hydrogen receiving, unloading and filling pressure and temperature monitoring system comprises a hydrogen receiving, unloading and filling pressure and temperature monitoring system installed on: temperature transmitter and pressure transmitter at the gas unloading cabinet, hydrogenation machine and hydrogen compressor.

4. The hydrogen station safety monitoring and emergency management system of claim 1, wherein: the electrostatic warning system comprises a sensor installed on: and electrostatic detectors and audible and visual alarms at the filling positions of the TT vehicle and the hydrogen fuel cell vehicle.

5. The hydrogen station safety monitoring and emergency management system of claim 1, wherein: the combustible gas alarm system comprises a gas alarm device installed in: and combustible gas detection alarm instruments at the gas unloading cabinet, the hydrogenation machine and the compressor.

6. The hydrogen station safety monitoring and emergency management system of claim 1, wherein: the hydrogen leak detection system includes a hydrogen sensor installed in: and hydrogen gas detection alarm instruments in areas of TT vehicles, gas discharge cabinets, hydrogenation machines and hydrogen compressors.

7. The hydrogen station safety monitoring and emergency management system of claim 1, wherein: the remote server includes: the system comprises a video monitoring display unit, a hydrogen leakage detection positioning unit, a hydrogen connecting, disconnecting and charging pressure and temperature monitoring unit, a grading early warning analysis unit, a resource information management unit and a safety statistic unit.

Images