CN113609209B - System and method for judging building area and scale of hydrogen adding station - Google Patents

Abstract

The invention discloses a system and a method for judging the construction area and the scale of a hydrogen station, and relates to the technical field of hydrogen stations. The beneficial effects of the invention are as follows: according to the system for building the site area and the scale of the hydrogen station, according to the steps of collecting the data of building the site, drawing the data analysis chart and comprehensively analyzing and processing the data, the systematic and scientific steps can obtain sufficient data support, through visual data analysis after drawing, through two times of data analysis of primary image overlapping processing, primary data analysis, secondary image overlapping processing and secondary data analysis, the site area is further reduced according to accurate judgment, the final site building scale is established, and therefore site building positions and scales can be matched with the number of vehicles and the hydrogen adding capability of the site area, economic benefits are improved, and meanwhile resource waste is avoided.

Description

System and method for judging building area and scale of hydrogen adding station

Technical Field

The invention relates to the technical field of hydrogen adding station building, in particular to a system and a method for judging the hydrogen adding station building area and scale.

Background

The hydrogen adding station is a gas station for supplying hydrogen to the fuel cell automobile, the earliest hydrogen adding station can be traced back to a hydrogen adding station which is positioned in Los Alamos in the year 1980 and is used as an infrastructure for supplying hydrogen to the fuel cell automobile, the number of hydrogen adding stations is continuously increasing, various demonstration activities are developed in the fire and heat all over the world, and the construction and demonstration operation activities of the hydrogen adding station are a great deal of data and experience accumulated in the future.

Because the site building cost of the hydrogen adding station is higher, in order to avoid resource waste caused by unmatched vehicle quantity and hydrogen adding station capability after the hydrogen adding station is built, a system needs to be established, and the hydrogen source, the vehicle distribution and quantity are comprehensively analyzed, so that the position and the scale of the hydrogen adding station are accurately judged, the existing site building method is rough and does not have systematicness, and therefore, the site building area and the scale judging system of the hydrogen adding station are provided.

Disclosure of Invention

The invention aims to provide a system for judging the site building area and the scale of a hydrogen adding station, which aims to solve the problems that the site building cost of the hydrogen adding station is high, the number of vehicles is not matched with the site building capacity of the hydrogen adding station to avoid resource waste after the hydrogen adding station is built, and the hydrogen source, the distribution and the number of vehicles are comprehensively analyzed to judge the position and the scale of the hydrogen adding station more accurately, and the existing site building and selecting method is rough and does not have systematicness.

In order to achieve the above purpose, the present invention provides the following technical solutions: a system for determining the area and scale of a hydrogen addition station build comprising:

the system comprises a station building data collection module, a data collection module and a data collection module, wherein the station building data collection module comprises user information collection, hydrogen information collection and other information collection;

the station building data analysis module is connected to the output end of the station building data collection module, the station building data analysis module is specifically used for drawing a data analysis chart, and the station building data analysis module comprises a vehicle sales range chart, a hydrogen production transportation chart and an alternative vehicle type operation distribution chart;

the comprehensive analysis processing module is connected to the output end of the station building data analysis module, the comprehensive analysis processing module comprises a primary image overlapping processing module, the output end of the primary image overlapping processing module is connected with a primary data analysis module, the output end of the primary data analysis module is connected with a secondary image overlapping processing module, and the output end of the secondary image overlapping processing module is connected with a secondary data analysis module.

The method for judging the construction area and the scale of the hydrogen station comprises the following steps:

A. station building data collection;

B. drawing a data analysis chart;

C. and (5) comprehensively analyzing and processing the data.

Optionally, the station building data collection in the step a includes the following specific steps:

a1, user information collection

The method comprises the steps that through cooperation with a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell automobile, collected end user information of the hydrogen fuel cell automobile comprises a vehicle type, a gas cylinder size and an automobile purchase area of an automobile owner, and the collected end user information is used for judging a possible hydrogenation area of the automobile;

a2, hydrogen information collection

The hydrogen production capacity, purity, application, hydrogen transportation mode or sales of the factory are collected by cooperation with a main hydrogen manufacturer to judge the capacity and price of hydrogen in a certain area;

a3, other information gathering

The number, the distribution and the operation area of the vehicle types which are operated and can be replaced by the hydrogen fuel cell vehicle are collected to judge the development space of the hydrogen fuel cell vehicle in a certain area in the future, wherein the vehicle types which are operated at present and support to be replaced by the hydrogen fuel cell vehicle are mainly heavy trucks and buses.

Optionally, the drawing the data analysis chart in the step B includes the following specific steps:

b1, drawing a vehicle sales range map

After the vehicle sales range is obtained from a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell, marking points on a map, and marking different types of marks aiming at different vehicle-mounted gas cylinder volumes, pressures and numbers so as to pick up data, so that a vehicle sales range map is prepared;

b2, drawing a hydrogen production transportation diagram

Marking the capacity of hydrogen production of a factory, namely meeting the requirement of the use part of a hydrogen fuel cell, on a map by using different types of marks according to different capacity, and marking the economic operation range of a long tube trailer on the map to prepare a hydrogen production transportation diagram;

b3, drawing an operation distribution diagram of a replaceable vehicle type

The method comprises the steps of marking a heavy truck which is currently operated and supported by a hydrogen fuel cell vehicle and an operation route of the bus for nearly two years on a map, wherein the route of the bus is relatively fixed, marking the route in a specific city, preparing a bus route map, wherein the route of a truck is mainly an expressway, marking the route of the expressway and an entrance of the expressway which are frequently operated on the map, and preparing the truck route map.

Optionally, the data comprehensive analysis processing in the step C includes the following specific steps:

c1, one-time superposition processing

The vehicle sales range diagram, the hydrogen production transportation diagram and the bus route diagram are overlapped, the consumption capacity of hydrogen corresponds to the vehicle sales range diagram and the bus route diagram, the hydrogen production transportation diagram corresponds to the production and transportation capacity of hydrogen, and the approximate area of the hydrogen addition station can be rapidly judged according to the density degree of points in the diagram;

c2, primary data analysis

After the area is selected, analyzing the type and hydrogen storage capacity of the vehicle according to the vehicle sales range diagram and the hydrogen production transportation diagram, judging the approximate operation range of the vehicle, and primarily reducing the site selection range and the hydrogen storage capacity of the hydrogen station according to the analysis results;

c3, secondary overlapping treatment

Superposing a hydrogen production and transportation diagram and a truck route diagram, wherein the truck route diagram corresponds to the consumption capacity of hydrogen, the hydrogen production and transportation diagram corresponds to the production and transportation capacity of hydrogen, and main expressway routes and inlets and outlets can be clearly seen from the diagram;

c4, secondary data analysis

And combining the distribution of the service areas of the corresponding expressway lines, assuming that the service radius of the hydrogenation station is 50km, comprehensively analyzing, further reducing the position range of the hydrogenation station and knowing the hydrogenation capacity, and finally determining the site and the scale of the construction of the hydrogenation station.

Optionally, in the process of drawing the hydrogen production transportation diagram in the step B2, the economic operation range of the long tube trailer is set to be 200km.

Optionally, in the process of drawing the hydrogen production transportation diagram in the step B2, the transportation range of the liquid hydrogen transportation vehicle and the transportation range of the solid hydrogen storage vehicle may be specifically divided, and different identifiers are adopted in the process of drawing the liquid hydrogen transportation and the solid hydrogen transportation.

The invention provides a system and a method for judging the construction area and the scale of a hydrogen station, which comprises the following steps of

The beneficial effects are that:

according to the system and the method for building the site area and the scale of the hydrogen station, according to the steps of collecting site data, drawing a data analysis chart and comprehensively analyzing and processing data, the systematic and scientific steps can obtain sufficient data support, through visual post-drawing data analysis, through two times of data analysis of primary image overlapping processing, primary data analysis, secondary image overlapping processing and secondary data analysis, the site area is further reduced according to accurate judgment, the final site area is established, and therefore site selection positions and scales of the site area can be matched with the number of vehicles and hydrogen adding capability of the area, economic benefits are improved, and meanwhile resource waste is avoided.

1. The invention is provided with a station building data collection step, and the customer target group in the current area can be fully known through the collection of the user information and the hydrogen manufacturer information so as to provide basis for the subsequent station building site selection scale.

2. The invention is provided with a data analysis drawing step, the information data obtained in the station building data collection step is displayed in a graphic mode, the drawing of the vehicle sales range diagram, the hydrogen production and transportation diagram and the alternative vehicle type operation distribution diagram is more visual, the position distribution condition of the data can be fully known, and the basis is conveniently provided for the subsequent station building site selection position.

3. The invention is provided with a data comprehensive analysis processing step, the most favorable data of the current site building can be obtained by superposing the drawings of the steps, so that the optimal site building position can be conveniently known, then the transportation of liquid hydrogen and solid hydrogen is correspondingly taken into consideration of site building and site selection of the hydrogen adding station, the consideration is more sufficient, and the site selection range and the hydrogen adding capacity of the hydrogen adding station are comprehensively analyzed and judged according to the distribution condition of dense dotted lines in the drawings after the drawing and the stacking.

Drawings

FIG. 1 is a schematic flow diagram of a system for determining the area and scale of a hydrogen addition station according to the present invention;

FIG. 2 is a schematic diagram of a construction data analysis module of a system for determining the construction area and the scale of a hydrogen addition station according to the present invention;

FIG. 3 is a schematic diagram of a comprehensive analysis processing module of a system for determining the area and scale of a hydrogen addition station according to the present invention.

In the figure: 1. a station building data collection module; 101. collecting user information; 102. collecting hydrogen information; 103. collecting other information; 2. a station building data analysis module; 201. a vehicle sales range map; 202. a hydrogen production transportation diagram; 203. the vehicle model operation distribution diagram can be replaced; 3. a comprehensive analysis processing module; 301. performing primary overlapping treatment; 302. a primary data analysis module; 303. the secondary overlapping processing module; 304. and a secondary data analysis module.

Detailed Description

Referring to fig. 1-3, the present invention provides a technical solution: a system and a method for judging the construction area and the scale of a hydrogenation station, wherein the system for judging the construction area and the scale of the hydrogenation station comprises the following steps:

the system comprises a station building data collection module 1, wherein the station building data collection module 1 comprises a user information collection 101, a hydrogen information collection 102 and other information collection 103;

the station building data analysis module 2 is connected to the output end of the station building data collection module 1, the station building data analysis module 2 is specifically a drawn data analysis chart, and the station building data analysis module 2 comprises a vehicle sales range chart 201, a hydrogen production transportation chart 202 and an alternative vehicle type operation distribution chart 203;

the comprehensive analysis processing module 3 is connected to the output end of the station building data analysis module 2, the comprehensive analysis processing module 3 comprises a primary image overlapping processing module 301, the output end of the primary image overlapping processing module 301 is connected with a primary data analysis module 302, the output end of the primary data analysis module 302 is connected with a secondary image overlapping processing module 303, and the output end of the secondary image overlapping processing module 303 is connected with a secondary data analysis module 304.

The method for judging the construction area and the scale of the hydrogen station is realized based on the judgment system of the construction area and the scale of the hydrogen station, and specifically comprises the following steps:

A. station building data collection;

B. drawing a data analysis chart;

C. and (5) comprehensively analyzing and processing the data.

The station building data collection in the step A comprises the following specific steps:

a1, user information collection

The method comprises the steps that through cooperation with a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell automobile, collected end user information of the hydrogen fuel cell automobile comprises a vehicle type, a gas cylinder size and an automobile purchase area of an automobile owner, and the collected end user information is used for judging a possible hydrogenation area of the automobile;

a2, hydrogen information collection

The hydrogen production capacity, purity, application, hydrogen transportation mode or sales of the factory are collected by cooperation with a main hydrogen manufacturer to judge the capacity and price of hydrogen in a certain area;

a3, other information gathering

The number, the distribution and the operation areas of the vehicle types which are operated and can be replaced by the hydrogen fuel cell vehicle are collected to judge the development space of the hydrogen fuel cell vehicle in a certain area in the future, wherein the vehicle types which are operated at present and support to be replaced by the hydrogen fuel cell vehicle are mainly heavy trucks and buses;

the step B of drawing a data analysis chart comprises the following specific steps:

b1, drawing a vehicle sales range map

After the vehicle sales range is obtained from a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell, marking points on a map, and marking different types of marks aiming at different vehicle-mounted gas cylinder volumes, pressures and numbers so as to pick up data, so that a vehicle sales range map is prepared;

b2, drawing a hydrogen production transportation diagram

Marking the capacity of hydrogen production of a factory, namely meeting the requirement of the use part of a hydrogen fuel cell, on a map by using different types of marks according to different capacity, and marking the economic operation range of a long tube trailer on the map to prepare a hydrogen production transportation diagram;

b3, drawing an operation distribution diagram of a replaceable vehicle type

The method comprises the steps of marking a heavy truck which is currently operated and supported by a hydrogen fuel cell vehicle and an operation route of a bus for nearly two years on a map, wherein the route of the bus is relatively fixed, marking the route in a specific city, preparing a bus route map, wherein the route of a truck is mainly an expressway, marking the route of the expressway and an entrance which are frequently operated on the map, and preparing the truck route map;

the data comprehensive analysis processing in the step C comprises the following specific steps:

c1, one-time superposition processing

The vehicle sales range diagram, the hydrogen production transportation diagram and the bus route diagram are overlapped, the consumption capacity of hydrogen corresponds to the vehicle sales range diagram and the bus route diagram, the hydrogen production transportation diagram corresponds to the production and transportation capacity of hydrogen, and the approximate area of the hydrogen addition station can be rapidly judged according to the density degree of points in the diagram;

c2, primary data analysis

After the area is selected, analyzing the type and hydrogen storage capacity of the vehicle according to the vehicle sales range diagram and the hydrogen production transportation diagram, judging the approximate operation range of the vehicle, and primarily reducing the site selection range and the hydrogen storage capacity of the hydrogen station according to the analysis results;

c3, secondary overlapping treatment

Superposing a hydrogen production and transportation diagram and a truck route diagram, wherein the truck route diagram corresponds to the consumption capacity of hydrogen, the hydrogen production and transportation diagram corresponds to the production and transportation capacity of hydrogen, and main expressway routes and inlets and outlets can be clearly seen from the diagram;

c4, secondary data analysis

And combining the distribution of the service areas of the corresponding expressway lines, assuming that the service radius of the hydrogenation station is 50km, comprehensively analyzing, further reducing the position range of the hydrogenation station and knowing the hydrogenation capacity, and finally determining the site and the scale of the construction of the hydrogenation station.

In the process of drawing a hydrogen production and transportation diagram, the economic operation range of the long tube trailer is set to be 200km, and the site selection judgment of the subsequent hydrogenation station is facilitated by setting an effective range; in the process of drawing a hydrogen production transportation diagram, the method can be divided into a transportation range of a liquid hydrogen transportation vehicle and a transportation range of a solid hydrogen storage vehicle, different marks are adopted in the process of drawing the diagram for liquid hydrogen transportation and solid hydrogen transportation, and the transportation of liquid hydrogen and solid hydrogen are taken into consideration of site selection of a hydrogen station building, so that the method is more fully considered.

In summary, the system for the hydrogen adding station building area and scale comprises the following steps:

A. station building data collection:

a1, user information collection

The method comprises the steps that through cooperation with a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell automobile, collected end user information of the hydrogen fuel cell automobile comprises a vehicle type, a gas cylinder size and an automobile purchase area of an automobile owner, and the collected end user information is used for judging a possible hydrogenation area of the automobile;

a2, hydrogen information collection

The hydrogen production capacity, purity, application, hydrogen transportation mode or sales of the factory are collected by cooperation with a main hydrogen manufacturer to judge the capacity and price of hydrogen in a certain area;

a3, other information gathering

The number, the distribution and the operation areas of the vehicle types which are operated and can be replaced by the hydrogen fuel cell vehicle are collected to judge the development space of the hydrogen fuel cell vehicle in a certain area in the future, wherein the vehicle types which are operated at present and support to be replaced by the hydrogen fuel cell vehicle are mainly heavy trucks and buses;

B. drawing a data analysis chart:

b1, drawing a vehicle sales range map

After the vehicle sales range is obtained from a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell, marking points on a map, and marking different types of marks aiming at different vehicle-mounted gas cylinder volumes, pressures and numbers so as to pick up data, so that a vehicle sales range map is prepared;

b2, drawing a hydrogen production transportation diagram

Marking the capacity of hydrogen production of a factory, namely meeting the requirement of the use part of a hydrogen fuel cell, on a map by using different types of marks according to different capacity, and marking the economic operation range of a long tube trailer on the map to prepare a hydrogen production transportation diagram;

b3, drawing an operation distribution diagram of a replaceable vehicle type

The method comprises the steps of marking a heavy truck which is currently operated and supported by a hydrogen fuel cell vehicle and an operation route of a bus for nearly two years on a map, wherein the route of the bus is relatively fixed, marking the route in a specific city, preparing a bus route map, wherein the route of a truck is mainly an expressway, marking the route of the expressway and an entrance which are frequently operated on the map, and preparing the truck route map;

C. and (3) comprehensively analyzing and processing data:

c1, one-time superposition processing

The vehicle sales range diagram, the hydrogen production transportation diagram and the bus route diagram are overlapped, the consumption capacity of hydrogen corresponds to the vehicle sales range diagram and the bus route diagram, the hydrogen production transportation diagram corresponds to the production and transportation capacity of hydrogen, and the approximate area of the hydrogen addition station can be rapidly judged according to the density degree of points in the diagram;

c2, primary data analysis

After the area is selected, analyzing the type and hydrogen storage capacity of the vehicle according to the vehicle sales range diagram and the hydrogen production transportation diagram, judging the approximate operation range of the vehicle, and primarily reducing the site selection range and the hydrogen storage capacity of the hydrogen station according to the analysis results;

c3, secondary overlapping treatment

Superposing a hydrogen production and transportation diagram and a truck route diagram, wherein the truck route diagram corresponds to the consumption capacity of hydrogen, the hydrogen production and transportation diagram corresponds to the production and transportation capacity of hydrogen, and main expressway routes and inlets and outlets can be clearly seen from the diagram;

c4, secondary data analysis

And combining the distribution of the service areas of the corresponding expressway lines, assuming that the service radius of the hydrogenation station is 50km, comprehensively analyzing, further reducing the position range of the hydrogenation station and knowing the hydrogenation capacity, and finally determining the site and the scale of the construction of the hydrogenation station.

Claims (4)

1. The utility model provides a method for judging the area and the scale of a hydrogen station building, which is realized based on a system for judging the area and the scale of the hydrogen station building, and is characterized in that the system comprises:

the system comprises a station building data collection module, a data collection module and a data collection module, wherein the station building data collection module comprises user information collection, hydrogen information collection and other information collection;

the station building data analysis module is connected to the output end of the station building data collection module, the station building data analysis module is specifically used for drawing a data analysis chart, and the station building data analysis module comprises a vehicle sales range chart, a hydrogen production transportation chart and an alternative vehicle type operation distribution chart;

the comprehensive analysis processing module is connected to the output end of the station building data analysis module, the comprehensive analysis processing module comprises a primary image overlapping processing module, the output end of the primary image overlapping processing module is connected with a primary data analysis module, the output end of the primary data analysis module is connected with a secondary image overlapping processing module, and the output end of the secondary image overlapping processing module is connected with a secondary data analysis module;

the method for judging the construction area and the scale of the hydrogen adding station comprises the following steps:

A. station building data collection;

B. drawing a data analysis chart;

the step B of drawing the data analysis chart comprises the following specific steps:

b1, drawing a vehicle sales range map

After the vehicle sales range is obtained from a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell, marking points on a map, and marking different types of marks aiming at different vehicle-mounted gas cylinder volumes, pressures and numbers so as to pick up data, so that a vehicle sales range map is prepared;

b2, drawing a hydrogen production transportation diagram

Marking the capacity of hydrogen production of a factory, namely meeting the requirement of the use part of a hydrogen fuel cell, on a map by using different types of marks according to different capacity, and marking the economic operation range of a long tube trailer on the map to prepare a hydrogen production transportation diagram;

b3, drawing an operation distribution diagram of a replaceable vehicle type

The method comprises the steps of marking a heavy truck which is currently operated and supported by a hydrogen fuel cell vehicle and an operation route of a bus for nearly two years on a map, wherein the route of the bus is relatively fixed, marking the route in a specific city, preparing a bus route map, wherein the route of a truck is mainly an expressway, marking the route of the expressway and an entrance which are frequently operated on the map, and preparing the truck route map;

C. comprehensively analyzing and processing data;

the data comprehensive analysis processing in the step C comprises the following specific steps:

c1, one-time superposition processing

The vehicle sales range diagram, the hydrogen production transportation diagram and the bus route diagram are overlapped, the consumption capacity of hydrogen corresponds to the vehicle sales range diagram and the bus route diagram, the hydrogen production transportation diagram corresponds to the production and transportation capacity of hydrogen, and the approximate area of the hydrogen addition station can be rapidly judged according to the density degree of points in the diagram;

c2, primary data analysis

After the area is selected, analyzing the type and hydrogen storage capacity of the vehicle according to the vehicle sales range diagram and the hydrogen production transportation diagram, judging the approximate operation range of the vehicle, and primarily reducing the site selection range and the hydrogen storage capacity of the hydrogen station according to the analysis results;

c3, secondary overlapping treatment

Superposing a hydrogen production and transportation diagram and a truck route diagram, wherein the truck route diagram corresponds to the consumption capacity of hydrogen, the hydrogen production and transportation diagram corresponds to the production and transportation capacity of hydrogen, and main expressway routes and inlets and outlets can be clearly seen from the diagram;

c4, secondary data analysis

And combining the distribution of the service areas of the corresponding expressway lines, assuming that the service radius of the hydrogenation station is 50km, comprehensively analyzing, further reducing the position range of the hydrogenation station and knowing the hydrogenation capacity, and finally determining the site and the scale of the construction of the hydrogenation station.

2. The method for determining the construction area and the scale of the hydrogen addition station according to claim 1, wherein the step a of collecting the construction data comprises the following steps:

a1, user information collection

The method comprises the steps that through cooperation with a vehicle-mounted gas cylinder manufacturer or a hydrogen fuel cell automobile, collected end user information of the hydrogen fuel cell automobile comprises a vehicle type, a gas cylinder size and an automobile purchase area of an automobile owner, and the collected end user information is used for judging a possible hydrogenation area of the automobile;

a2, hydrogen information collection

The hydrogen production capacity, purity, application, hydrogen transportation mode or sales of the factory are collected by cooperation with a main hydrogen manufacturer to judge the capacity and price of hydrogen in a certain area;

a3, other information gathering

The number, the distribution and the operation area of the vehicle types which are operated and can be replaced by the hydrogen fuel cell vehicle are collected to judge the development space of the hydrogen fuel cell vehicle in a certain area in the future, wherein the vehicle types which are operated at present and support to be replaced by the hydrogen fuel cell vehicle are mainly heavy trucks and buses.

3. The method for determining the construction area and the scale of the hydrogen addition station according to claim 1, wherein: in the process of drawing the hydrogen production and transportation diagram in the step B2, the economic operation range of the long tube trailer is set to be 200km.

4. The method for determining the construction area and the scale of the hydrogen addition station according to claim 1, wherein: in the process of drawing a hydrogen production transportation diagram in the step B2, the transportation range of the liquid hydrogen transportation vehicle and the transportation range of the solid hydrogen storage vehicle can be divided, and different marks are adopted in the process of drawing the diagram for the liquid hydrogen transportation and the solid hydrogen transportation.