KR101018994B1 - Greenhouse gas-clean air policy support system and method thereof - Google Patents

Abstract

PURPOSE: A greenhouse gas-clean air policy support system and a method thereof are provided to accurately collect each kind of data for calculating the emission amount of air pollutants and green-house gas in order to ensure the reliability of data when calculating the emission amount. CONSTITUTION: A database server(200) includes a DB(201) which includes the information on the place which emits air-pollutant or green-house gas. If basic data collection request is inputted by an operator terminal(100), a management server(300) searches from the database of a CAPSS(Clean Air Policy Support System) the information on the emission sources of the air-pollutants or green-house gas in real time. The management server searches from the database of an SEMS(Stack Emission Management System) the activity information and the facility information on the emission concentration of air-pollutants or the emission amount in real time.

Description

Greenhouse gas and air pollutant integrated management system and its method {GREENHOUSE GAS-CLEAN AIR POLICY SUPPORT SYSTEM AND METHOD THEREOF}

The present invention relates to a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) and its method, and more specifically, to calculate the emissions of each country, local government, and source unit by linking greenhouse gas and air pollutant emission statistics. By establishing an emission database, an integrated management system for greenhouse gases and air pollutants, which enables the establishment of reliable basic statistics DB and the provision of data necessary for the implementation of climate change policy for low carbon green growth and environmental policy for air quality improvement ( GHG-CAPSS) and methods thereof.

The present invention relates to a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) and its method.

Existing GHG and air pollutant emission estimation system has a very difficult measurement of factors necessary for calculation of emissions, so various errors occur in the measurement process, and many management factors used for measurement are performed by hand. Due to frequent errors, the accuracy of emission calculations was not guaranteed. In addition, the guidelines for calculating greenhouse gas emissions are very large, and the calculations are complicated and very likely to cause errors. This has exposed various inconveniences and problems, and the greenhouse gas and air pollutant emission statistics are not integrated. As a result, it was not possible to analyze the co-benefit effects such as the interrelationship between substances according to the integrated policy promotion, and thus it showed a limitation as a policy support tool to derive the optimal policy promotion strategy.

The object of the present invention devised to solve the above problems is to build a low-carbon green growth by establishing greenhouse gas and air pollutant emission system by national, local government, and source unit by linking the greenhouse gas and air pollutant source classification system. It is to provide a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) and its method, which enable the establishment of emission statistics DB and the provision of data for climate change policy and environmental policy for air quality improvement.

In addition, another object of the present invention is to collect the basic data for the calculation of greenhouse gas and air pollutant emissions in real-time linkage with the existing air policy support system (CAPSS) and air emission management system (SEMS) established, the National Statistical Office, local government In connection with related organizations such as related associations and other related organizations, other activities such as fuel, raw material and product supply and demand information of related organizations are searched and databased in real time, so that the greenhouse gases and air pollution scattered in each system and related organizations are scattered. It is possible to integrate and manage various information for material emission estimation and to collect various data and data for the calculation of greenhouse gas and air pollutant emission easily and accurately without visiting various sites and collecting various data directly. GHG and air pollutant emissions can be estimated, and Greenhouse gases and air pollutants Integrated Management System (GHG-CAPSS) to ensure the reliability of emitter and is intended to provide a method thereof.

In addition, another object of the present invention is to link the source classification system of greenhouse gases and air pollutants with high efficiency of integrated management because the source and generation mechanism of pollutants are similar, and the central government by cost-effectively integrating basic activity data. It provides basic data for optimized integrated management, such as creating effective policy scenarios, deciding policy priorities, analyzing pollutants simultaneously and implementing effects, taking into account the co-benefit of air management policies and climate change policies of local governments. It is to provide a comprehensive greenhouse gas and air pollutant management system (GHG-CAPSS) and its methods.

In addition, another object of the present invention is to calculate the GHG and air pollutant emissions by calculating the database by statistical information on a variety of standards by year, region, sector, emission factor and emission calculation method, the Ministry of Environment, local governments, national government It is to provide a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) and its methods to improve the quality of greenhouse gas and air pollutant emission services for public institutions and experts such as research institutes.

According to a feature of the present invention for achieving the above object, the integrated greenhouse gas and air pollutant management system of the present invention, greenhouse gas and air pollutant emission source information, fuel consumption by each business site, real-time pollutant emission concentration And a database server including a discharge company information database storing activity information and facility information including emission information; In case of receiving basic data collection request for calculating GHG and air pollutant emission from operator and operator terminal, or search GHSS and air pollutant source information in real time from database of CAPSS From the database of the air emission management system (SEMS), the activity information and facility information including real-time pollutant emission concentrations and emission information collected from each site's fuel consumption, chimneys over a certain scale, and information are retrieved in real time. A management server including a data management unit for storing the information in the discharge company information database; The database server includes: a related organization information database configured to store activity information including fuel supply and demand of the related organization; A geographic information database that stores geographic information including GIS data; A calculation method information database that stores emission factor and calculation method information for each greenhouse gas; An emission information database that stores greenhouse gas emission information for each business site; An emission history database that stores raw data analysis information of GHG emissions and various statistical information including GHG emissions for many years; And a verification database that stores abnormal workplace verification criteria information. Further, the management server, when receiving a request for collecting the greenhouse gas emission calculation method information from the operator terminal or by searching the greenhouse gas emission coefficient and calculation method information for each greenhouse gas from the database of the research institute in a predetermined cycle unit in real time A methodology management unit for storing the calculation method information database; When receiving a request for calculating the amount of greenhouse gas emissions from the operator's terminal or at a predetermined interval, the emission factor and calculation method are searched in the activity information and calculation method information database of each business site in the emission company information database, and the retrieved activity information and calculation method are searched. An emission calculation government that calculates greenhouse gas emissions of each business site based on the method and stores them in an emission information database; An information providing unit which receives a request for providing GHG emissions or statistical information from an operator terminal or a user terminal, retrieves GHG emission information from a discharge information database or statistical information from an emission history database, and provides the received information to an operator terminal or a user terminal; And a data verification unit which receives abnormal workplace verification criteria information from an operator terminal and stores the verification site verification information in a verification database. In addition, the data management unit, when receiving a request to collect the basic data for the calculation of greenhouse gas and air pollutant emissions from the operator terminal or at predetermined intervals of the relevant institutions including public institutions, research institutions and related associations Search for activity information and geographic information, including fuel supply and demand, in real time from a database, and store the data in a related organization information database and a geographic information database. Basic data for calculating the greenhouse gas and air pollutant emissions from an operator terminal. It is characterized in that the direct input and store in the emission company information database, the relevant institution information database and geographic information database, the methodology management unit, directly receiving the emission factor and calculation method information for each greenhouse gas from the operator terminal calculation method information day Characterized in that it is stored in the base, when receiving the emission history information generation request from the operator terminal, the greenhouse gas emission source information from the emission company information database, facility information of the greenhouse gas emission workplace, geographic information from the geographic information database, related organization information database GHG emissions are searched in the activity information and emission information database in the database, and statistical information including annual trend information and emission source data analysis information is generated based on various criteria by business site, region, sector, emission factor and emission calculation method. And storing the generated statistical information in an emission history database, wherein the emission calculation unit includes six kinds of greenhouse gases (CO ₂ , CH ₄ , N ₂ O, HFCs, PFCs, SF ₆ ) and indirect greenhouse gases. (NOx, CO, NMVOC, SOx) emissions are calculated at the same time, the greenhouse gas emissions And by classifying the emission factor and emission calculation method by sector, and storing the calculated GHG emissions in an emission information database. The data verification unit receives a request for generating verification criteria information from an operator terminal. In the case of a predetermined cycle, the average fuel consumption of each business site is calculated by searching the fuel consumption of each business site stored in the emission company information database, and the calculated historical average fuel consumption of each business site is stored in the verification database as abnormal business verification standard information. The data verification unit may be configured to search for abnormal workplace verification criteria information in the verification database on a predetermined basis or when receiving an abnormal workplace extraction request from an operator terminal, and in the discharge establishment information database according to the found verification criteria. this It is characterized by extracting a business place that is determined to be a business place, determining whether there is an abnormal situation such as data leakage of the extracted work place, and automatically sending an e-mail to a relevant person in charge when it is determined to be an abnormal situation.

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According to another feature of the present invention for achieving the above object, the integrated greenhouse gas and air pollutant management method of the present invention in the integrated greenhouse gas and air pollutant management method using a database server and the management server, The database server includes a discharge company information database, a related agency information database, and a geographic information database; A verification database including a verification site information storing the abnormal workplace verification standard information; A calculation method information database that stores emission factor and calculation method information for each greenhouse gas; An emission information database that stores greenhouse gas emission information for each business site; And an emission history database that stores raw data analysis information of greenhouse gas emissions and various statistical information including greenhouse gas emissions for many years. Further, wherein the management server, (a) when receiving a basic data collection request for calculating the greenhouse gas emissions from the operator terminal or at a predetermined interval unit GHG source information from the database of the atmosphere support policy system (CAPSS) Real-time search and activity information and facility information including real-time pollutant emission concentrations and emission information collected from the fuel consumption of each business site and the chimneys of the business site above a certain scale from the database of the air emission management system (SEMS) Storing the retrieved information in the discharge company information database; (b) retrieving activity information and geographic information, including fuel supply and demand, in real time from a database of relevant agencies, including public institutions, research institutes and related associations, and storing them in the relevant agency information database and geographic information database; (c) When the management server finishes the steps (a) and (b), the fuel consumption of each business site stored in the discharge company information database is searched to calculate historical average fuel consumption of each business site, and the calculated historical past Storing the average fuel consumption as abnormal workplace verification reference information in a verification database; (d) When the management server receives a request for extracting an abnormal workplace from an operator terminal or searches for abnormal workplace verification criteria information in a verification database on a predetermined cycle basis, the management server refers to the abnormal workplace in the discharge establishment information database according to the found verification criteria. Extracting a business place that is determined, determining whether or not there is an abnormal situation such as data leakage of the extracted business place, and automatically sending an e-mail to an associated person's terminal in case of determining that the business place is abnormal; (e) retrieving, by the management server, emission factors and calculation method information for each greenhouse gas from a database of a research institution in real time in a calculation method information database; (f) When the management server receives a request for calculating a greenhouse gas emission amount from an operator terminal or at a predetermined interval, the emission factor and calculation method are searched in the activity information and calculation method information database for each business site in the emission company information database. And calculating the GHG emissions for each business site based on the retrieved activity information and the calculation method, and storing the GHG emissions for each business site in an emission information database. GHG emissions from information on facilities and facilities of the GHG Emissions Workplace, geographic information database, activity information from the relevant organization information database and emission information database, and calculation of emission factors and emissions by business site, region, sector, sector Trend information and emissions by year on various criteria by method Generating a statistical analysis information including data information, and storing the generated statistical information to the emission history database; And (h) the management server receives a request for providing GHG emissions or statistical information from an operator terminal or a user terminal, retrieves GHG emission information or emission information from an emission information database, and retrieves statistical information from an operator terminal or a user terminal. Providing to; In addition, the step (f), the six kinds of greenhouse gases (CO ₂ , CH ₄ , N ₂ O, HFCs, PFCs, SF ₆ ) and indirect greenhouse gases (NOx, CO, NMVOC, SOx) emissions simultaneously Characterized in that the calculation, and further classified and calculated the GHG emissions by region, sector, emission factor and emission calculation method, and stores the calculated GHG emissions in the emission information database.

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According to the present invention as described above, by linking the GHG and air pollutant source classification system by building the emissions of GHG and air pollutant by country, local government, and source unit, It can provide the GHG-CAPSS and its method, which enable the establishment of emission statistics DB and the provision of data necessary for the promotion of environmental policies for air quality improvement.

In addition, according to the present invention collects the basic data for the calculation of greenhouse gas and air pollutant emissions in real-time linkage with the existing air policy support system (CAPSS) and air emission management system (SEMS), and the National Statistical Office, local government, In connection with related organizations such as associations, other activity data such as fuel, raw materials and product supply and demand information of related organizations are searched and databased in real time, so that greenhouse gas and air pollutant emissions scattered around each system and related organizations are discharged. Integrated management of information for calculation is possible, and various data and data for calculating greenhouse gas and air pollutant emissions can be collected easily and accurately without visiting various sites and collecting various data directly. And air pollutant discharge can be calculated, and data at the time of discharge calculation Greenhouse gases and air pollutants Integrated Management System (GHG-CAPSS) to ensure the reliability and can provide the way.

In addition, according to the present invention, the greenhouse gas and air pollutant integrated management system (GHG-), which indicates an area, a sector, and an emission source indicating an error or error, can improve the reliability of the basic data for calculating the greenhouse gas and air pollutant emission. CAPSS) and methods therefor.

In addition, another object of the present invention is to calculate the GHG and air pollutant emissions by calculating the database by statistical information on a variety of standards by year, region, sector, emission factor and emission calculation method, the Ministry of Environment, local governments, national government GHG-CAPSS Integrated Management System (GHG-CAPSS) and its greenhouse gas and air pollutant emission service for public institutions and experts, such as research institutes, or the public website for general users It may provide a method.

1 is a block diagram showing a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) according to a preferred embodiment of the present invention.
2 is a configuration diagram of a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) according to a preferred embodiment of the present invention.
3 is a flow chart showing a method for integrated management of greenhouse gases and air pollutants in accordance with a preferred embodiment of the present invention.

Specific details of other embodiments are included in the detailed description and the drawings.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and the general knowledge in the art to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described with reference to the drawings for explaining the greenhouse gas and air pollutant integrated management system (GHG-CAPSS) and the method according to embodiments of the present invention. do.

1 is a block diagram showing a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) according to a preferred embodiment of the present invention. 2 is a configuration diagram of a greenhouse gas and air pollutant integrated management system (GHG-CAPSS) according to a preferred embodiment of the present invention.

Greenhouse gas and air pollutant integrated management system (GHG-CAPSS) according to a preferred embodiment of the present invention includes a database server 200 and the management server 300.

First, the database server 200 is a discharge company information database 201 that stores activity information and facility information, including greenhouse gas and air pollutant emission source information, fuel consumption for each business site, real-time pollutant emission concentration and emission information. It includes.

In addition, the management server 300 includes a data management unit 301, the data management unit 301 receives a basic data collection request for calculating the greenhouse gas and air pollutant emissions from the operator terminal 100.

Then, the data management unit 301 retrieves the greenhouse gas emission source information from the database of the Clean Air Policy Support System (CAPSS), and for each business site from the database of the stack emission management system (SEMS). It searches for activity information and facility information in real time, including fuel consumption, real-time pollutant emission concentrations and emission information collected from the chimneys of the workplace over a certain size, and stores the retrieved information in the discharge company information database 201.

At this time, the data management unit 301 may be set to collect the basic data for calculating the greenhouse gas emissions on a regular basis.

Here, CAPSS is a system that was established in two stages from 1999 to 2005. It is a national air pollutant (SOx, NOx, CO, dust, VOC, PM ₁₀ , NH ₃ ) emission calculation system. It is a system that establishes and records a pollutant emission database from 2007 to 2007.

In addition, the Air Pollutant Source Management System (SEMS) is an air pollutant source survey system using the Internet in accordance with Article 17 of the Atmospheric Environment Conservation Act. It is the first system built to conduct research on the Internet.

Meanwhile, the air emission source management system (SEMS) receives real-time monitoring data of pollutant emission concentrations and emissions from a continuous automatic measurement management system (CleanSYS) for a chimney of a certain size or more.

Here, the continuous automatic measurement management system (CleanSYS) is installed in 1,332 chimneys of 507 business sites nationwide as of 2009 to monitor the emission concentrations and emissions of seven pollutants and flow items such as dust, NOx, SOx, and hydrogen chloride in real time. Say

That is, the data management unit 301 stores the chimneys of a certain size or more that are stored and stored in the database of the air emission management system (SEMS), the fuel consumption, product output, various facility information of each business site, and received from the CleanSYS. By searching for pollutant emission concentrations and emissions in real time and storing them in the emission company information database 201, it is possible to comprehensively manage the basic data necessary for calculating greenhouse gas emissions, making it easier to calculate greenhouse gas emissions. On the homepage, the quality of services related to greenhouse gas emissions will be improved.

Meanwhile, the database server 200 further includes a related organization information database 202 storing activity information including fuel supply and demand of related organizations and a geographic information database 203 storing geographic information including GIS data. It is desirable to.

The relevant agencies include public agencies such as the National Statistical Office and local governments, research institutes, private companies, and related associations.The activity information of related agencies includes fuel consumption, fuel and raw material supply, product supply, electricity sales, rice paddy area, Various information such as heat / hot water sales and city gas sales are included.

In addition to the GIS data, the above geographic information includes a variety of information such as land cover, industrial complex, and road network.

Then, the data management unit 301, when receiving a request for collecting the basic data for calculating the greenhouse gas emissions from the operator terminal 100 or from a database of the related organizations including public institutions, research institutes and related associations at predetermined intervals It is preferable to search for activity information and geographic information including fuel supply and demand in real time, and to further store the information in related organization information database 202 and geographic information database 203.

At this time, the data management unit 301 directly receives the basic data for calculating the greenhouse gas emissions from the operator terminal 100 to store in the discharge company information database 201, the related organization information database 202 and the geographic information database 203. Could be

On the other hand, the database server 200 may further include a verification database 207 that stores the abnormal business verification criteria information.

And it is preferable that the management server 300 further includes a data verification unit 302, the data verification unit 302 receives the abnormal workplace verification reference information from the operator terminal 100 and stores in the verification database 207. .

In this case, the data verification unit 302 searches for the fuel usage of each business site stored in the discharge company information database 201 in the case of receiving a request for generating verification reference information from the operator terminal 100 or at a predetermined cycle, and then for each past business site. It is preferable to calculate the average fuel consumption, and to store the calculated historical average fuel consumption for each workplace in the verification database 207 as abnormal workplace verification reference information.

In addition, the data verification unit 302 retrieves the abnormal workplace verification criteria information from the verification database 207 in the case of receiving an abnormal workplace extraction request from the operator terminal 100 or in a predetermined cycle unit, and discharges it according to the found verification criteria. Extract the business place that is determined to be the abnormal business place in the business information database 201,

It is more desirable to determine whether an abnormal situation, such as data leakage of the extracted workplace, and to automatically send an e-mail to the relevant staff terminal (not shown).

Eventually, the relevant personnel can re-validate the input data when receiving e-mail, and check the wired data with the person in charge of the system or the related agency and receive the correct data again, thereby improving the reliability of the basic data for calculating greenhouse gas emissions. It becomes possible.

On the other hand, the database server 200 preferably further includes a calculation method information database 204 for storing the emission factor and calculation method information for each greenhouse gas, the management server 300 further comprises a methodology management unit 303. It is preferable to include.

In this case, the methodology management unit 303 retrieves the greenhouse gas emission factor and calculation method information in real time from the database of the research institute in the case of receiving a request for collecting greenhouse gas emission calculation method information from the operator terminal 100 or at predetermined intervals. To the calculation method information database 204.

In addition, the methodology management unit 303 may directly receive the emission factor and calculation method information for each greenhouse gas from the operator terminal 100 and store it in the calculation method information database 204.

Here, emission factors and emission estimation methods are used by UN-governmental climate change jointly established by the World Meteorological Organization (WMO) and the United Nations Environment Program (UNEP) to assess global risks associated with climate change and develop international countermeasures. The emission factors and calculation methods presented in the IPCC Guidelines 1996 and IPCC Guidelines 2006 of the International Council on Intergovernmental Panel on Climate Change (IPCC) will be used.

In addition, the emission factors and calculation methods can be subdivided into point sources, cotton sources, and mobile sources, so that not only emission factors and calculation methods already developed by the National Institute of Environmental Science, but also future emission factors and calculation methods can be used.

On the other hand, the emission calculation method can be seen as follows.

□ energy combustion sector,

CO ₂ Emissions = Activity Data × Emission Factor × Oxidation Factor

(Activity data: fuel consumption (TJ), emission factor: greenhouse gas emissions per unit fuel consumption (tCO ₂ / TJ), oxidation coefficient: the rate at which most of the carbon is oxidized to CO ₂ when burning fuel)

□ Fair emissions sector,

CO ₂ emissions = activity data × emission factors

(However, activity data: raw material use or product output (ton or m ³ ), emission factor: GHG emissions per unit raw material use or product output (tCO ₂ / ton or m ³ ))

□ agriculture, forestry, waste,

CO ₂ emissions = land area, vegetation area, waste disposal volume, etc. by use × emission factor

On the other hand, the database server 200 preferably further includes an emission information database 205 for storing greenhouse gas emission information for each business site, and the management server 300 further includes an emission calculation unit 304. desirable.

In this case, the emission calculation unit 304 receives the request for calculating the greenhouse gas emission amount from the operator terminal 100 or the activity information and calculation method information database for each business site in the emission company information database 201 at predetermined intervals. In step 204, the emission factor and the calculation method are searched, and based on the activity information and the calculation method, the GHG emission amount is calculated and stored in the emission information database 205.

In addition, the emission calculation unit 304 calculates the six kinds of greenhouse gases (CO ₂ , CH ₄ , N ₂ O, HFCs, PFCs, SF ₆ ) and indirect greenhouse gases (NOx, CO, NMVOC, SOx) at the same time. It is desirable to.

That is, the United Nations Framework Convention on Climate Change (UNFCCC) specifies that emissions of indirect greenhouse gases should be included in the national report, so the GHG-CAPSS integrated management system of the present invention is 6 In addition to species greenhouse gases, indirect greenhouse gas emissions can be calculated to meet UNFCC standards.

Further, the emission calculation unit 304 further calculates and classifies the greenhouse gas emissions by region, sector, emission factor and emission calculation method, and stores the calculated greenhouse gas emissions in the emission information database 205. something to do.

On the other hand, the database server 200 preferably further includes an emission history database 206 that stores the raw data analysis information of the greenhouse gas emissions and various statistical information including the trend of the greenhouse gas emissions for many years.

And, if the methodology management unit 303 receives a request for generating emission history information from the operator terminal 100,

GHG emission source information in the emission company information database 201, facility information of the GHG emission workplace, geographic information in the geographic information database 203, activity information in the related organization information database 202 and emission information in the emission information database 205 Search GHG emissions, generate statistical information including yearly trend information and emission data analysis information on various basis by business site, region, sector, emission factor and emission calculation method, and generate the statistical information It is desirable to store in database 206.

On the other hand, the management server 300 preferably further includes an information provider 305.

At this time, the information providing unit 305 receives a request for providing GHG emissions or statistical information from the operator terminal 100 or the user terminal 400,

In the emission information database 205, the GHG emission information or the statistical information is retrieved from the emission history database 206 and provided to the operator terminal 100 or the user terminal 400.

Here, the user terminal 400 includes the Ministry of Environment, local governments and other public institutions, general users and the like.

On the other hand, the management server 300 preferably further includes a system management unit 306.

In addition, the system manager 306 performs authentication when accessing the greenhouse gas and air pollutant integrated management system (GHG-CAPSS) of the present invention from the user terminal 400, and if the authentication is successful, the greenhouse gas emission information and The information provider 305 is requested to provide statistical information.

In addition, the system manager 306 manages user information, a data room, notices, usage log information, and the like, and provides the information when receiving a request for providing usage log information from the operator terminal 100.

At this time, the management server 300, it may be preferable to further include a database (not shown) that stores the user information, archives, announcements and usage log information.

In addition, the system manager 306 receives the user information from the user terminal 400 and stores it in the database, and updates the information such as the data room, announcements, etc. from the operator terminal 100 to be preferably stored. will be.

In addition, it will be more preferable to automatically generate log information using the greenhouse gas and air pollutant integrated management system (GHG-CAPSS) of the present invention from the operator terminal 100 or the user terminal 400 to be stored in a database. .

Referring to Figure 2, the greenhouse gas and air pollutant integrated management system (GHG-CAPSS) of the present invention is an air emission source management system that stores greenhouse gas and air pollutant emission source information, that is, each business site and emission facility information Computerizes the collection, registration, and calculation of data from database servers including SEMS, and basic activity data such as fuel supply and product production published by the National Statistical Office and various industrial associations, and the database of the CAPSS database. GHG emission source information is searched and extracted in real time, and GHG emission is calculated by region and by region by year, and the accumulated information is stored in a database to build an integrated database to calculate greenhouse gas and air pollutant emissions. It can improve the reliability of basic data, and the government, public institutions, etc. Various statistical general public through the website of the National GHG calculation based on data and sources, it is possible to perform a greenhouse gas and air pollutant emissions related services such as business information effectively.

3 is a flow chart showing a method for integrated management of greenhouse gases and air pollutants in accordance with a preferred embodiment of the present invention.

Greenhouse gas and air pollutant integrated management method using a database server 200 and the management server 300 according to an embodiment of the present invention,

The database server 200 includes a discharge company information database 201, a related agency information database 202, a geographic information database 203, a calculation method information database 204, an emission information database 205, and an emission history database 206. And a verification database 207.

And, the management server 300, first, receives a basic data collection request for calculating the greenhouse gas emissions from the operator terminal 100,

Real-time retrieval of greenhouse gas source information from the database of the CAPSS, and real-time pollutant emission concentrations collected from the chimneys of workplaces over a certain size from the fuel emission management system (SEMS) database The activity information and facility information including the emission information is searched in real time, and the retrieved information is stored in the discharge company information database (step S100).

At this time, the management server 300 may be set in advance to collect the basic data for calculating the greenhouse gas emissions in a predetermined cycle unit in advance may be automatically connected to the database of the associated system to receive the corresponding data for each cycle.

Next, activity information and geographic information including fuel supply and demand are searched in real time from a database of related organizations including public institutions, research institutes, and related associations, and stored in the relevant institution information database and geographic information database (step S200).

Then, when the steps S100 and S200 are finished, the fuel consumption of each business site stored in the discharge company information database 201 is searched to calculate historical average fuel consumption by business sites, and the calculated historical average fuel consumption by business sites is verified. 207) is stored as abnormal workplace verification reference information (step S300).

Next, when the abnormal workplace extraction request is input from the operator terminal 100, or the abnormal workplace verification criteria information is retrieved from the verification database 207 at preset intervals, the abnormal workplace is searched in the discharge establishment information database according to the found verification criteria. It is determined that the business place is determined to be, and whether or not the abnormal situation, such as the data leakage of the extracted business site, and if it is determined that the abnormal situation is automatically sent to the relevant personnel terminal (step S400).

Thereafter, the greenhouse gas emission factor and calculation method information are searched in real time from a database of the research institution and stored in the calculation method information database 204 (step S500).

Next, when receiving a request for calculating a greenhouse gas emission amount from the operator terminal 100 or at a predetermined interval, the activity factor information and calculation method information database 204 in the emission company information database 201 and the calculation method information database 204 The calculation method is searched for, and the GHG emission amount of each business site is calculated and stored in the emission information database 205 based on the retrieved activity information and the calculation method (step S600).

In this case, in step S600, it is preferable to simultaneously calculate six kinds of greenhouse gases (CO ₂ , CH ₄ , N ₂ O, HFCs, PFCs, SF ₆ ) and indirect greenhouse gases (NOx, CO, NMVOC, SOx).

In addition, in step S600, it is more preferable to further classify the GHG emissions by region, sector, emission coefficient and emission calculation method, and store the calculated GHG emissions in the emission information database 205.

Next, the greenhouse gas emission source information in the emission company information database 201 and the facility information of the greenhouse gas emission workplace, the geographic information in the geographic information database 203, the activity information and the emission information database in the relevant institution information database 202. 205) to search for GHG emissions, generate statistical information including yearly trend information and emission data analysis information on a variety of basis by business site, region, sector, emission factor and emission calculation method, and generated statistical information. Is stored in the emission history database 206 (step S700).

Finally, the GHG emission or statistical information providing request is input from the operator terminal 100 or the user terminal 400, and the GHG emission information or the emission history database 206 is retrieved from the emission information database 205. To the operator terminal 100 or the user terminal 400 (step S800).

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is indicated by the scope of the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalent concept are included in the scope of the present invention. Should be interpreted.

100: operator terminal
200: database server 201: discharge company information database
202: related information database 203: geographic information database
204: Estimation method information database 205: Emission information database
206: emission history database 207: verification database
300: management server 301: data management unit
302: Data Verification Department 303: Methodology Management Department
304: calculation of emissions 305: Ministry of Information
306: system management unit 400: user terminal

Claims (22)

A database server including an emission company information database that stores activity information and facility information including greenhouse gas and air pollutant emission source information, fuel consumption for each business site, real-time pollutant emission concentration and emission information; And
In case of receiving basic data collection request for calculating greenhouse gas and air pollutant emissions from the operator terminal or searching the greenhouse gas and air pollutant source information in real time from the database of CAPSS at predetermined intervals, From the database of the air emission management system (SEMS), the activity information and facility information including real-time pollutant emission concentrations and emission information collected from each business site's fuel consumption, chimneys over a certain scale, and real-time information are retrieved. A management server including a data management unit for storing the discharge company information database; Including,
The database server,
A related agency information database that stores activity information including fuel supply and demand of related agencies;
A geographic information database that stores geographic information including GIS data;
A calculation method information database that stores emission factor and calculation method information for each greenhouse gas;
An emission information database that stores greenhouse gas emission information for each business site;
An emission history database that stores raw data analysis information of GHG emissions and various statistical information including GHG emissions for many years; And
A verification database storing abnormality verification standard information; Further comprising:
The management server,
A methodology management unit for retrieving GHG emission factor and calculation method information in real time from a database of a research institute in a case where a request for collecting greenhouse gas emission calculation method information is received from an operator terminal or at a predetermined cycle unit;
When receiving a request for calculating the amount of greenhouse gas emissions from the operator's terminal or at a predetermined interval, the emission factor and calculation method are searched in the activity information and calculation method information database of each business site in the emission company information database, and the retrieved activity information and calculation method are searched. An emission calculation government that calculates greenhouse gas emissions of each business site based on the method and stores them in an emission information database;
An information providing unit which receives a request for providing GHG emissions or statistical information from an operator terminal or a user terminal, retrieves GHG emission information from a discharge information database or statistical information from an emission history database, and provides the received information to an operator terminal or a user terminal; And
A data verification unit which receives abnormal workplace verification standard information from an operator terminal and stores it in a verification database; Further comprising:
The data management unit,
When receiving basic data collection request for calculating greenhouse gas and air pollutant emission from operator's terminal, or activity, including fuel supply in real time from database of related organizations including public institutions, research institutes and related associations at preset intervals Search for information and geographic information, and store the information in a related organization information database and geographic information database;
It receives the basic data for calculating the greenhouse gas and air pollutant emissions directly from the operator terminal and stores in the emission company information database, the relevant organization information database and geographic information database,
The methodology management unit,
It receives the emission factor and calculation method information for each greenhouse gas directly from the operator terminal and stores it in the calculation method information database.
When receiving the request for generation of emission history information from the operator terminal, GHG emission source information from the emission company information database, facility information of the GHG emission workplace, geographic information from the geographic information database, activity information from the relevant agency information database, and from the emission information database Search GHG emissions, generate statistical information including yearly trend information and emission data analysis information on various basis by business site, region, sector, emission factor and emission calculation method, and generate the statistical information Characterized in that stored in a database,
The discharge calculation unit,
It is characterized by simultaneously calculating ₆ greenhouse gases (CO ₂ , CH ₄ , N ₂ O, HFCs, PFCs, SF ₆ ) and indirect greenhouse gases (NOx, CO, NMVOC, SOx) emissions,
It is characterized by further classifying the GHG emissions by region, sector, emission factor and emission calculation method, and storing the calculated GHG emissions in the emission information database.
The data verification unit,
When receiving the request for generating verification standard information from the operator terminal or searching the fuel consumption of each business site stored in the discharge company information database on a preset cycle unit, calculate the historical average fuel consumption by each business site, and calculate the historical average fuel consumption by the business site. It is characterized in that to store the abnormal business verification criteria information in the verification database,
The data verification unit,
When an abnormal workplace extraction request is input from an operator terminal or by searching for an abnormal workplace verification criterion information in a verification database on a predetermined cycle unit, the workplace determined to be an abnormal workplace is extracted from the emission company information database according to the found verification criteria, and extracted. Determining whether there is an abnormal situation such as data leakage of the workplace, and if it is determined that the abnormal situation, characterized in that it sends an e-mail automatically to the person in charge
Integrated management system for greenhouse gases and air pollutants.
delete delete delete delete delete delete delete delete delete delete delete delete In the integrated management method of greenhouse gases and air pollutants using a database server and a management server,
The database server,
Discharger information database, related organization information database and geographic information database; Including,
A verification database storing abnormality verification standard information;
A calculation method information database that stores emission factor and calculation method information for each greenhouse gas;
An emission information database that stores greenhouse gas emission information for each business site; And
An emission history database that stores raw data analysis information of GHG emissions and various statistical information including GHG emissions for many years; Further comprising:
The management server,
(a) Receive real-time GHG emission source information from the CAPSS database when receiving a request for basic data collection for calculating GHG emissions from an operator terminal or at predetermined intervals; From the SEMS) database, the activity information and facility information including real-time pollutant emission concentrations and emission information collected from each site's fuel consumption, chimneys over a certain scale are retrieved in real time, and the retrieved information is searched in the emission company information database. Storing;
(b) retrieving activity information and geographic information, including fuel supply and demand, in real time from a database of relevant agencies, including public institutions, research institutes and related associations, and storing them in the relevant agency information database and geographic information database;
(c) When the management server finishes the steps (a) and (b), the fuel consumption of each business site stored in the discharge company information database is searched to calculate historical average fuel consumption of each business site, and the calculated historical past Storing the average fuel consumption as abnormal workplace verification reference information in a verification database;
(d) When the management server receives a request for extracting an abnormal workplace from an operator terminal or searches for abnormal workplace verification criteria information in a verification database on a predetermined cycle basis, the management server refers to the abnormal workplace in the discharge establishment information database according to the found verification criteria. Extracting a business place that is determined, determining whether or not there is an abnormal situation such as data leakage of the extracted business place, and automatically sending an e-mail to an associated person's terminal in case of determining that the business place is abnormal;
(e) retrieving, by the management server, emission factors and calculation method information for each greenhouse gas from a database of a research institution in real time in a calculation method information database;
(f) When the management server receives a request for calculating a greenhouse gas emission amount from an operator terminal or at a predetermined interval, the emission factor and calculation method are searched in the activity information and calculation method information database for each business site in the emission company information database. And calculating GHG emissions for each business site based on the retrieved activity information and calculation method and storing the GHG emissions in each emission information database.
(g) The management server, the greenhouse gas emission source information from the emission company information database and the facility information of the greenhouse gas emission workplace, geographic information from the geographic information database, activity information from the relevant agency information database and greenhouse gas emissions from the emission information database Search and generate statistical information including annual trend information and emission source data analysis information on a variety of basis by business site, region, sector, emission factor and emission calculation method, and store the generated statistical information in the emission history database. step; And
(h) The management server receives a request for providing GHG emissions or statistical information from an operator terminal or a user terminal, retrieves the GHG emission information from the emission information database or the statistical information from the emission history database, and sends the request to the operator terminal or the user terminal. Providing; Including,
Step (f),
It is characterized by simultaneously calculating ₆ greenhouse gases (CO ₂ , CH ₄ , N ₂ O, HFCs, PFCs, SF ₆ ) and indirect greenhouse gases (NOx, CO, NMVOC, SOx) emissions,
GHG emissions are further classified by region, sector, emission factor and emission calculation method, and the calculated GHG emissions are stored in an emission information database.
Integrated management of greenhouse gases and air pollutants.
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