KR102010927B1 - Current information calculating system for air pollutants emissions and calculating method using the same - Google Patents

Abstract

The present invention relates to a current air pollutant matter emission amount system and a method for calculating the current emission amount using the same for calculating the national air pollutant matter emission amount in recent years to a value close to an actual emission amount through the current national air pollutant matter emission amount. A growth factor is extracted and a current type of classification is classified for each discharge source using the reference year emission amount data, a result of the target year emission amount calculation is current by establishing a methodology for calculating the target year emission amount for each of the classified current type, and accuracy and reliability of air quality forecast such as concentration of fine dusts are capable of being increased by overcoming a parallax of data collection; and can be used as a more accurate reference data for establishing, implementing, and evaluating air environment policies such as comprehensive measures for fine dust management. The present invention comprises an emission source classification part, a reference year emission amount input part, and a growth factor extraction part.

Description

Air Pollutant Emissions Existing System and Emission Estimation Method Using Them {CURRENT INFORMATION CALCULATING SYSTEM FOR AIR POLLUTANTS EMISSIONS AND CALCULATING METHOD USING THE SAME}

The present invention relates to an air pollutant discharge actualization system and a method for calculating the emission actualization using the same for calculating the national air pollutant discharge of the recent year to a value close to the actual emission through the actualization of the national air pollutant discharge.

In Korea, air pollutant sources have been systematically classified and inventory has been established based on activity data and emission factors for each source. In order to calculate annual emissions, a lot of basic statistical data such as related agencies, emission companies, and Geographic Information System (GIS) information are required.Atmospheric Policy Support System team contacts wired organizations to obtain activity data. Or send a letter of cooperation. Once a year, the data is obtained from the previous year and should be obtained by June every year. In some cases, the agency's own production takes more than one year, so the current Clean Air Policy Support System (CAPSS) has been calculating emissions two years ago.

Emission factors are expressed as emissions per unit activity, and the 'Air Pollutant Emission Factor and It is applied after reviewing the feasibility of the 'Emission Control Committee'. Emissions have been calculated for seven air pollutants (CO, NO _X , SO _X , TSP, PM-10, VOC _S , NH ₃ ) since 1999.Additional pollutant PM-2.5 has been added since 2011, 2014 The year was calculated by adding Black Carbon.

Conventional national air pollutant emission estimates are divided into point sources, cotton sources and mobile sources. Point sources include fuel combustion, production processes and waste disposal, and the Emission Management System (Stack Emission Management System) Emissions were calculated using the Bottom Up Approach by applying fuel consumption and product production based on SEMS. The mobile pollution source mainly includes transportation means such as automobiles. For example, the vehicle is calculated by applying the vehicle's mileage and emission factors by vehicle type, year, and type, and assigning it to the area based on actual traffic volume. Calculated as

However, the latest emission data used in the conventional national air pollutant emission estimation method has a time difference of about two to three years from the present point of time. In the past, about 300 related organizations should collect 300 activities data and apply them to the calculation of emissions, so it takes a certain time for each institution to produce and publish the statistical data (in some cases, its own production It takes more than one year), and after confirming the data of each institution, it collects and verifies it and applies it to the emission calculation. Therefore, there is a time difference between the timing of the emission data and the present time. For this reason, demands on emissions data by the media, policymakers, and the public are questioning the latest data, and the establishment and implementation of air quality policies, evaluation and evaluation of air quality (fine dust concentration, etc.) To this end, the need for production of current emissions data has been continuously raised.

Therefore, in order to overcome the limitations of the existing national air pollutant emission estimation method and to improve it, a method and method for calculating the current emission method for each sub-sector were required, and the latest emission standard was calculated.

The technical problem of the present invention is to use the latest data available to classify the national air pollutant emission calculation, classify the current type according to the change of emission by each source, and suitable for the current type according to each current type. It is to provide an air pollutant emission estimation system and a method for estimating the air pollutant emission by deriving the estimation method.

The purpose of the present invention, in the air pollutant discharge currentization system, the source classification unit for classifying the source according to the base year air pollutant emission calculation level, the air of the base year in conjunction with the database storing the air pollutant emission data A base year emission input unit for inputting pollutant emissions, a growth factor extraction unit for extracting growth factors for calculating air pollutant emissions for each emission source classified by the source classification unit, and the growth for each classification classified by the source classification unit Classification according to the current type of classification according to the current type of classification, the classification of the current type according to the way the growth factor extracted from the factor extraction unit contributes to the air pollutant emissions, Target year for calculating air pollutant emissions in the target year for each classified classification Air pollutant emission modernization system including a province year emission calculation unit and a target year emission calculation result derivation unit for outputting air pollutant emission data of the current target year using the result value calculated by the target year emission calculation unit. Is achieved by.

The current type classification unit, the growth factor type unit in which the emission source is increased or decreased in proportion to the growth factor size, a large number of complex factors act than the growth coefficient type, the growth value is different for each space As a source of discharge, a unit-type unit that includes automobiles, motorcycles, ships, and aviation sources, and a source of electricity generated by fuel. The sources of discharge are classified by each unit, and classified by operation period for each unit, and growth factors. Is the amount of power generation, the complex type division that classifies the sources of air pollutant emissions different depending on the power generation method and operation period, and there is no growth factor that is the basis for calculating the air pollutant emissions. It may include other types in which the source of applicability is classified.

The growth factor type part is a simple growth factor type part in which an emission source whose value of the growth factor is calculated on a yearly basis is calculated, and a value of the growth factor is calculated on a monthly basis, and at least a part of the monthly emissions included in the target year can be obtained. The trend growth factor type part in which the discharge sources are classified, and the growth factor type not included in the simple growth factor type part and the trend growth factor type part, wherein the growth factors necessary for the formation of the growth factor can be obtained through additional data processing steps. It may include a complex growth coefficient type to be classified.

The target year emission calculation unit inputs an air pollutant emission increase / decrease value proportional to a growth factor size for each of the discharge sources classified in the growth factor type unit as a growth factor, and is based on each discharge source classified in the growth factor type unit. A growth factor type calculation unit that calculates a target year growth factor type air pollutant emissions by multiplying the yearly air pollutant emissions by the growth factor; a database storing air pollutant emission data for each source of the emission classified in the unit type unit; The base year unit and the target year activity calculated for each base source of each source of the source classified in the base unit type unit; Calculate target year type unit air pollutant emissions by multiplying by degree Is a raw unit type calculation unit, extracts the growth coefficient according to the increase and decrease of the power generation amount for each unit of the discharge source classified in the complex type unit, and sets the standard discharge amount according to the operation period for each unit, power generation method, the standard discharge amount And extracting the air pollutant emission data stored in the reference year emission input unit for each emission source classified into the complex type calculation unit and the other type unit using the growth factor to calculate the target year complex type air pollutant emissions. Other types of calculations may be included to enter the target year air pollutant emissions for each source classified in the category.

In the complex type calculation unit, the operation period is maintained in the target year after the base year, a waste paper that is abolished within the target year after the base year, a new period established within the target year after the base year, and within the target year It can be a distinction, including shutdowns that occur for some period of time.

In the complex type calculation unit, the reference discharge amount, the breath classified into the holder is set as the standard discharge amount of the air pollutant emissions of the reference year discharge source as it is, the exhalation classified as the waste paper is started out of the emissions of the reference year breath Only the emissions from the month before the month are set as the standard discharges, and the units classified as the new units are defined and classified as the discharges of similar facilities among the base year facilities according to the capacity of the new units. The breathing machine classified as the shutdown unit may be set as a reference discharge amount by removing the shut down month of the discharge of the reference year.

As another solution for achieving the object of the present invention, in the method for calculating the air pollutant emissions by the air pollutant emission currentization system, the discharge source according to the reference year air pollutant emissions calculation level in the source classification unit Source source classification step of classifying, base year emission input step of inputting air pollutant emission amount of base year by interlocking with database storing air pollutant emission data at base year emission input unit, classification by the source source classification unit at growth factor extractor The growth factor extraction step of extracting the growth factor to calculate the air pollutant emissions by each discharge source, the growth factor extracted from the growth factor extraction unit for each source that is classified in the source classification unit in the current type classification unit is air pollutant Act on how to contribute to emissions Calculating the air pollutant emissions of the target year for each classification classified by the source classification unit according to the currentization type classified by the current classification type classification unit in the current classification type classification step and target year emission calculation unit which gives a type. Target year emission calculation step and target year emission calculation result derivation unit, target year emission calculation result derivation step of outputting air pollutant emission data of the current target year by using the result value calculated by the target year emission calculation unit It is achieved by the current estimation method of air pollutant emissions, including.

In the current classification type classification step, the emission source whose air pollutant emission increases or decreases in proportion to the growth factor size is classified as a growth factor type, and a plurality of complex factors operate compared to the growth factor type, and the growth value is different for each space. Classify vehicles, motorcycles, ships, and aviation sources as raw unit types, generate power using fuel, growth factors are power generation, and emit sources with different air pollutant emissions depending on the generation method and operation period. For example, there may be no growth factor that is the basis for calculating air pollutant emissions, and the source of air pollutant emissions from the base year may be classified as other types.

The target year emission calculation step may include inputting an air pollutant emission increase / decrease value proportional to a growth factor size for each of the discharge sources classified as the growth factor type as a growth factor, and reference year for each discharge source classified as the growth factor type. A growth factor type calculation step of calculating the target year growth factor type air pollutant emissions by multiplying the air pollutant emissions by the growth factor, and linking the database with the air pollutant emission data stored for each source of the source classified as the primary unit type. The base year unit is calculated, the activity of the target year is calculated for each source of the source classified in the unit type, and the base year unit and the target year activity calculated for each source of the source classified in the unit type are calculated. Multiply by Target Year Type Air Pollutant Emissions Calculating the raw unit type, extracting the growth coefficient according to the increase and decrease of the generation amount of each source classified into the complex type, and set the standard discharge amount according to the operation period for each source, the power generation method, the base discharge amount and the growth coefficient Complex type calculation step of calculating the target year composite type air pollutant emissions by using, and extracts the air pollutant emission data stored in the reference year emissions input unit for each source classified as the other type and classifies it to the other type Other types of calculations may be included to enter target year air pollutant emissions for each source.

In the complex type calculation step, the operation period is a retainer that continues to operate until the target year after the base year, a waste paper that is abolished within the target year after the base year, a new period established within the target year after the base year, and within the target year. It can be a distinction, including shutdowns that occur for some period of time.

In the complex type calculation step, the reference discharge amount, the discharge source classified as the holder, sets the air pollutant discharge amount of the reference year discharge source as the reference discharge amount, and the discharge source classified as the waste paper is started from the discharge of the reference year discharge source. Only the emissions from the month before the month are set as the standard emissions, and the sources classified as the new construction units are classified as the discharges of similar facilities among the base year facilities according to the capacity of the new unit. The discharge source, which is classified as the shutdown unit, may be set as the reference discharge amount by removing the shut down month discharged from the discharge of the reference year.

The present invention utilizes current emissions data as an input data for forecasting air quality (fine dust concentration, etc.) such as the Air Quality Integrated Forecasting Center. It can improve the accuracy and reliability of forecasts, and can be used as basic data for establishing, implementing, and evaluating air environment policies such as comprehensive measures for fine dust management. The resolution of the current emissions can be increased by using the latest detailed data and the part of the space allocation forecast data that are appropriate for each source methodology, and the current emissions reflecting the current air quality status can be estimated through short-term forecasts.

1 is a block diagram showing an air pollutant emission actualization system according to an embodiment of the present invention.
2 is a flowchart illustrating a method for calculating an air pollutant discharge current according to an embodiment of the present invention.

Hereinafter, some embodiments will be described in detail with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even though they are shown in different drawings. In addition, in describing the embodiments of the present specification, when it is determined that a detailed description of a related well-known configuration or function may obscure the gist of the present specification, the detailed description thereof will be omitted.

 The technical spirit and the subject matter of the present invention may be applied to other sectors in the same or similar manner, and embodiments that are applied to other sectors may be included in the scope of the present invention.

In the present invention, when a part is said to "include" a certain component, it means that it can further include other components, except for the other components unless otherwise stated. In addition, the term "~ unit" described in the specification means a unit for processing at least one function or operation, which may be implemented in hardware (hardware) or software (software) or a combination of hardware and software. Although not shown in the drawings, the air pollutant emission actualization system of the present invention may include a processor, a memory, and a transceiver.

Among the terms used in the present invention, the reference year refers to the final year of the year in which air pollutant emissions are calculated, and the target year refers to the year in which air pollutant emissions are to be made current. In addition, the emission amount in the present invention means the emission of air pollutants, even if the "air pollutant" is omitted used the same meaning. Similarly, the source used in the present invention means an air pollutant source.

1 is a diagram showing an air pollutant discharge current system 1000 according to an embodiment of the present invention, an emission source classification unit 1100 for classifying a source according to a reference year air pollutant emission calculation level, and an air pollutant discharge Base year emissions input unit 1200 for inputting air pollutant emissions in the base year by interlocking with the database where data is stored, and growth factor extraction unit for extracting growth factors for calculating air pollutant emissions for each source classified in the source classification unit. 1300, currentization type classification unit 1400 for classifying the currentization type according to the way the growth factor extracted from the growth factor extraction unit contributes to the air pollutant emissions by each classification classified by the emission source classification unit (1400) Air pollutant emissions in the target year for each classification classified by the source classification unit according to the current type of classification classified by the type classification unit Target year emissions calculation unit 1500 for calculating the target year emissions calculation unit for outputting air pollutant emissions data of the current target year using the target value calculated by the target year emissions calculation unit 1500 ).

When calculating the existing air pollutant emissions (base year emissions), the emission sources are classified into major, medium, small, and subdivided units, and fuels are assigned to sources that require fuel classification. In addition, we collect and apply activities that can be divided into regions to allocate space for emissions, and calculate emissions to each city and county district. This is called the emission calculation level.

The current type of classification classification unit 1400, the growth factor type unit 1410, where the emission source is increased or decreased in proportion to the growth factor size of the air pollutant emissions, a number of complex factors work compared to the growth coefficient type, space It is an emission source that shows different growth values for each unit, a raw unit type unit 1420 that includes a vehicle, a motorcycle, a ship, and an aviation source, and an emission source that is generated using fuel. According to the period, the growth factor is the amount of power generation, the complex type unit (1430) that classifies the emission sources whose air pollutant emissions are different according to the power generation method and the operation period, and the growth factor that is the standard for calculating the air pollutant emissions. It does not include, and includes the other type unit 1440 that is classified as a source that can be applied to the emission of air pollutants of the base year as it is. Here, the meaning of the source that can apply the air pollutant emissions of the base year as it is more precisely, it may be difficult to derive growth factors for the currentization or through complex calculations, but there are many difficulties in calculation It means the emission source that can not be applied as it is. In the present invention, the exhalation means each unit of the power plant when the discharge source is a power plant.

The growth factor type unit 1410 obtains at least a portion of the monthly growth factors included in the target year, and the simple growth factor type unit in which the growth factor value is calculated on a yearly basis, and the growth factor value is calculated on a monthly basis. The growth factor type, which is not included in the trend growth factor type part and the simple growth factor type part and trend growth factor type part, in which possible sources are classified, and the growth factors necessary for the formation of the growth factor can be obtained through additional data processing steps. Includes complex growth factor types where the sources are classified.

The target year emission calculation unit 1500 inputs an air pollutant emission increase / decrease value proportional to the growth factor size for each of the discharge sources classified in the growth factor type unit 1410 as a growth factor, and the growth factor type unit 1410. Each of the sources classified in the growth factor type calculation unit 1510 and the unit type unit 1420, which calculates the target year growth coefficient type air pollutant emissions by multiplying the base year air pollutant emissions by the growth factor for each of the emission sources classified in Calculate the base year unit by linking with the database storing air pollutant emission data for each source, calculate the target year activity for each source of discharge source classified in the unit type unit 1420, and in the unit type unit 1420 Calculate the target year unit type air pollutant emissions by multiplying the base year unit and target year activity obtained for each source of the classified source. The growth factor is extracted according to the increase and decrease of the generation amount for each unit of the discharge source classified in the unit type calculation unit 1520 and the complex type unit 1430, and the standard discharge amount is set according to the operation period for each unit. Atmospheric stored in the reference year emission input unit 1200 for each source classified in the target type compound type air pollutant emissions 1530, and the other type unit 1440, using the reference emissions and growth factors The other type calculation unit 1540 extracts the pollutant emission data and inputs the target year air pollutant emissions for each emission source classified in the other type unit 1440.

In the complex type calculation unit 1530, the operation period includes a retainer that continues to operate until the target year after the base year, a waste paper that is abolished within the target year after the base year, and a new period and a target period established within the target year after the base year. It is classified as a shutdown that occurs for some period of time. Here, the term 'after the base year' includes the base year and refers to the period after that, and the term 'after the base year' does not include the base year but only the period after the base year.

In the complex type calculation unit 1530, the standard discharge amount is set as the base unit, and the air pollutant discharged from the base year source is set as the base discharge amount. Only the emissions up to the previous month are set as the standard emissions, and the units classified as new units are defined and classified as the emissions of similar facilities among the base year facilities according to the capacity of the new units. Exhalers classified as shutdowns are set to the standard emissions by removing the shut down month of the base year emissions.

2 is a flowchart illustrating a method for calculating an air pollutant discharge current according to an embodiment of the present invention, wherein the source classification step 1100 classifies a source according to a reference year air pollutant emission calculation level (S1100). ), The reference year emissions input step (S1200), the growth factor extractor (1300) classifies the source emissions by inputting the air pollutant emissions of the reference year in conjunction with the database storing the air pollutant emission data in the reference year emission input unit 1200 A growth factor extraction step (S1300) for extracting growth factors for calculating air pollutant emissions for each emission source classified in the unit 1100, and each discharge source classified in the emission source classification unit 1100 in the current type classification unit 1400. According to the growth factor extracted from the growth factor extracting unit 1300 for each contributing to the emission of air pollutants, the current conversion type is assigned to the current conversion type. Air pollutant emissions of the target year for each classification classified by the source classification unit 1100 according to the currentization type classified by the current type classification unit 1400 in the flow stage (S1400) and the target year emission calculation unit 1500 In the target year emission calculation step (S1500) and the target year emission calculation result deriving unit 1600 for calculating the target year, the air pollutant emissions of the target year that are currentized by using the result value calculated by the target year emission calculation unit 1500 A target year emission calculation result deriving step (S1600) of outputting data is performed.

Source classification step (S1100) is to classify the discharge source according to the discharge characteristics, in one embodiment of the present invention was classified into 13 large categories as shown in Table 1.

Large Classification Classification of Sources sign Major category of discharge 01 Energy Industry Combustion 02 Non-industrial combustion 03 Manufacturing combustion 04 production process 05 Energy transport and storage 06 Use of organic solvent 07 Road Movement Pollution Source 08 Non-Road Transport Pollution 09 Waste disposal 10 Agriculture 11 Other Cotton Pollution Sources 12 Scattering dust 13 Biological combustion

The emission sources are categorized according to the emission estimation criteria, and each of the major categories is subdivided according to fuel, emission materials, and emission characteristics to establish a medium / small classification / subclassification system. To increase the accuracy of emissions calculations, the number of sources for each category can be calculated, and the types of pollutants can be classified into point sources, cotton sources, and mobile sources.

The base year emissions input step (S1200) inputs the air pollutant emissions of the base year by interlocking with the database storing the air pollutant emissions data. In Korea, the national air pollutant emissions are calculated and stored in the Clean Air Policy Support System (CAPSS) every year, and the database storing the air pollutant emission data in the present invention is preferably an air policy support system. Do. Therefore, the base year emissions input unit 1200 is interlocked from the database of the atmospheric policy support system to input the base year emissions for each classification.

Growth factor extraction step (S1300) is a step of extracting the growth factor to calculate the air pollutant emissions for each emission source classified by the source source classification unit 1100 in the growth factor extraction unit 1300, for example, agriculture (large classification) -The growth factor in the fertilizer use (middle classification) can extract agricultural prospects such as arable land as growth factors, and in the scattering dust (large classification)-road ash scattering dust (middle classification), the number of registered cars can be extracted as the growth factor. have. In order to calculate the target year emissions, the growth factor should be selected to obtain the target year value so that more accurate emission actualization is possible.

In the current type classification step (S1400), the current type is classified according to a method in which the growth factor extracted from the growth factor extractor 1300 contributes to the emission of air pollutants for each source classified by the source classification unit 1100. In the present invention, the current type is classified as a growth factor type, the source of air pollutant emissions increase and decrease in proportion to the growth factor size, a number of complex factors acting compared to the growth factor type, the growth value is different for each space Classify vehicles, motorcycles, ships, and aviation sources as raw unit types, generate power using fuel, growth factors are power generation, and emit sources with different air pollutant emissions depending on the generation method and operation period. However, there are no growth factors that can be used as the basis for estimating emissions of air pollutants, and other sources can be classified as emission sources that can be applied as they are during the base year.

The growth factor type is an emission source whose emission increases or decreases in proportion to the growth factor size, and can be subdivided into a simple growth factor type, a trend growth factor type, and a complex growth factor type.

The simple growth coefficient type is classified when the factors constituting the growth coefficient can be obtained simply, and mainly uses the prospective data of other institutions. The growth factor in the simple growth factor type is defined as the ratio between the base year and the target year for the same type of data. In addition, emissions of simple growth factor types are generally estimated on an annual basis. For example, the growth factor of agricultural (large-class) fertilizer-use farmland (mid-class) is 'cultivated area', and the arable area is provided with the target year value from the agricultural forecast data so that the growth factor can be easily obtained. The classifications included in the simple growth factor types include the petroleum product industry (medium) in the production process (large category), the nonferrous metals industry (medium), other manufacturing industries (medium), agricultural machinery (non-road transport pollution) (medium), construction equipment (Middle classification), agriculture (large classification), fertilizer farmland (middle classification), and manure management (middle classification).

The growth factor type is calculated on a monthly basis, and the sources that can obtain some of the monthly values included in the target year are classified. In addition, the factors constituting the growth coefficient can be simply obtained for the base year, but the sources that need to be converted annually are classified as trend growth coefficient types to obtain the target year's emissions. The trend growth coefficient type mainly uses statistical data from the performance period, and the growth coefficient is defined as the ratio between the annualized values of the base year and target year for the same type of data. For example, the growth factor of the steelmaking industry (medium classification) in the production process (large category) is 'annual crude steel volume'. The crude steel volume can also be obtained yearly and monthly, but the target year is only counted up to the countable month. However, if the aggregateable month is September, the October-December tidal volume should be calculated to reflect the monthly tidal trend in the base year. The categories included in the trend growth coefficient types include steelmaking industry in the production process (large classification), transportation and storage of energy (large classification), use of organic solvents (large classification), and scattering dust from road ashes (medium classification). Etc. are included.

Complex growth factor types include sources that undergo a separate processing step because the values needed to construct the growth factor do not meet the required data levels. The growth factor for the complex growth factor type is defined as the ratio between the annualized value of the base year and the target year for the same type of data. For example, in commercial and public institutional facilities (medium classification) of nonindustrial combustion (large category), the growth factor is 'consumption by fuel type by sector.' At this time, the annual data can be obtained by 'segment' value from the forecast data, and the fuel data by sector can be obtained quarterly data from the statistical monthly report, but only for the target year, it is counted up to the countable quarter. In this case, the growth factors for the target year consist of the results of applying the average data of the sectoral fuel types over the last three months to the annual data. The categories included in the complex growth coefficient types include commercial and public institutional facilities (medium) for nonindustrial combustion (large classification), and combustion facilities (medium classification) for manufacturing combustion (large category).

Raw unit types are categorized when the source is different from the growth factor type and the spatial growth of the source compared to the growth factor type, for example motor vehicles, motorcycles, ships and aeronautical sources. Here, the source level refers to judging the vehicle by various factors, such as size, type of oil used, age of the source, and so on. Regional data, such as the movement speed of the source, has a meaning including spatial meaning. For example, among the growth factors of automobile emissions, 'temperature' is applied to the calculation of cold emissions, and 'vehicle speed', which is the movement speed of the emission source, is applied to the calculation of hot emissions. As such, since it is practically difficult for the unit type to determine all of these various growth factors, it is practically difficult to implement them. Emissions will be utilized.

In the complex type, the sources of power generation using fuel are classified, the growth factor is the amount of power generation, and the sources of emissions to be calculated according to the generation method and operation period of each power plant when calculating the target year's emission. Since the source of the complex type is the source of power generation, in the present invention, the term "power source" means the source of complex type. The generators are organized by unit, and the generators in the base year are for units with calculated emissions.

Example of Base Year Unit of Power Generation Business Number Business place Chimney number Development history company Branch Development type OOO-OO-OOOOA One One A company AA company Incheon complex OOO-OO-OOOOA One 2 … OOO-OO-OOOOB One One A company AB company East Sea energy OOO-OO-OOOOB One 2 … OOO-OO-OOOOC One One Company B BB Company West complex OOO-OO-OOOOC One 2 … OOO-OO-OOOOD One One Company C CB Company Paju complex OOO-OO-OOOOD One 2 … OOO-OO-OOOOE One One Company D DA company complex OOO-OO-OOOOE One 2 …

Table 2 shows the reference year expiration date of the power generation source, and combines the business number and the chimney number, etc. to break down the expiration date of each power generation source.

In order to calculate and estimate the target year emissions from the complex type, the source of the target year is defined. The source of generation in the target year is also broken down by unit, and classified into units that are maintained until the target year for the source of generation in the base year, abolished units, add new units, and shutdown history if there is a unit that is shut down. Reflect very much. To sum up, the units that are maintained until the target year after the base year are classified as 'keep-keepers', and those units that have been shut down for some months are classified as 'correctors' and abolished within the target year after the base year. Classified units that are scheduled to be decommissioned or to be abolished are classified as 'waste dumpers' and are given additional shutdown start months, and classified units newly established within the target year from the base year as 'new periods' and additionally assigned start-up months, Units that have had a shutdown for some months within the year are classified as 'shutdown' and are given additional downtime.

The complex type further includes further deriving growth factors. The growth factor in the complex type is the generation amount, and the growth factor is configured according to the increase and decrease of the generation amount by the generation company and the fuel. Therefore, it is preferable to configure the growth factor so as to satisfy both the reference year generation source and the target year generation source.

Example of Growth Factor Configuration Value of Power Generation Source Power generation company fuel Power generation GWh ) line company Base year Target year A company AA company hard coal 2,529 727 Bituminous coal 62,104 66,890 complex 2,650 2,216 syncopation Company D - Bituminous coal - 13,673 Oil 16,700 656 complex 46,011 81,910

Example of Derivation of Growth Factors Development history company Fuel cord Growth factor A company AA company 101% 0.2873 A company AA company 102% 1.07706 A company AA company 402% 0.83639 syncopation Company D 102% One Company D 2% 0.03928 Company D 402% 1.78022

Table 3 is an example showing the factors constituting the growth factor of the power generation source and the value of each factor, Table 4 is an example showing the form of the growth factor database for each power generation based on Table 3 and the growth coefficient derived through it .

Other types are those that have no growth factor as a basis for estimating emissions, and which have to apply the base year's emissions as they are. Sources that cannot be applied as simple and trending growth factor types due to lack of data are classified. For example, forest fires, fires, and waste fields may be included.For example, there are no forecast data for the event / accident type data such as forest fires and fires, and statistics such as wastes are often slow to produce or difficult to obtain. Difficult to apply to other types

In the target year emission calculation step (S1500), an air pollutant emission increase / decrease value proportional to a growth factor size is inputted as a growth factor for each discharge source classified as a growth factor type, and the growth factor type unit 1410 increases the growth factor. Data on air pollutant emissions by each source of the emission factor classified by unit type, calculating the growth factor type calculation step that calculates the target year growth factor type air pollutant emissions by multiplying the base year air pollutant emissions by the type of source classified by type. Calculates the base year unit by linking with the stored database, calculates the activity of the target year for each source of the discharge source classified in the unit type unit 1420, and for each source of the source classified in the unit type unit 1420 Multiply the obtained base year unit by the target year activity to find the target year unit type air pollutant emissions. The growth factor is extracted according to the calculation stage of each unit type, the increase and decrease of the generation amount of each source classified as the complex type, and the standard discharge amount is set according to the operation period for each source, and the power generation method, the base discharge amount and the growth factor are used. The complex type calculation step of calculating the complex type air pollutant emissions of the target year, and extracting air pollutant emission data stored in the base year emission input unit 1200 for each source classified into other types, and classifying the Other types of calculations include inputs to target year air pollutant emissions by source.

In more detail, the target year emission calculation step S1500 is classified by the source classification unit 1100 according to the current type of classification classified by the current type classification unit 1400 in the target year emission calculation unit 1500. It is a step to calculate the air pollutant emissions of the target year for each classification.

The growth factor type is calculated by the growth factor type calculation unit 1510, and the target year emissions are calculated as 'target year = reference year emissions × growth factor'. This applies equally to the sources of simple growth factor type, trend factor type, and complex growth factor type.

The unit type calculation calculates the target year's emissions from the unit type calculation unit 1520, converts the base year's emissions into units by the formula 'unit unit = (base year emissions ÷ base year activity)', and then target year. Calculate the emissions by using the formula, `` Emissions of target year = base year unit x target year activity ''. 'Target year activity' is simplified at low resolution to the activity used in estimating base year emissions. The emission sources to which the unit type is applied are the automobile, motorcycle, ship (cargo ship), and aviation sectors, which have a common high resolution of activity. For example, the activity of the vehicle is the mileage of the vehicle, and the required resolution is very complicated by the vehicle type / fuel / year / driving area / driving vehicle. Since the data cannot meet all the requirements for the target year, the unit type standard is set to the number of vehicles registered. In other words, the target year activity is the number of registered vehicles, and the configurable resolution is vehicle type / fuel / year. Among the resolution items in the related art, the driving area, the driving speed, and the average driving distance per vehicle are conceptually included in the 'unit unit', which includes the premise that the reference year and the target year are the same.

In the complex type, the complex type calculation unit 1530 calculates the emissions of the target year, and the total amount of the emissions of the target year is determined by multiplying the growth coefficient by the result of classifying the emissions of the base year by the power source. Since all power generation sources are large-scale installations, emissions should be current for each installation. For this reason, the reference data that can be assigned to the total amount of emissions to each discharge facility is required, in the present invention, the reference data is the reference discharge amount, the reference discharge amount is classified as' oiler, corrector, Each of the five categories of Waste Disposal, New, and Shutdown:

(1) Maintenance period: Emissions of base year power generation sources are used as base emissions

(2) Compensator: The base year's emissions shall be the baseline emissions, but for the months of inactivity, the baseline emissions shall be given by the emissions of the neighboring months with the same accountability.

(3) Waste paper: Only the amount of energy generated from the base year's power generation until the month before the start of operation will be used as the standard amount.

(4) New period: Designate similar facilities among the base year facilities according to the capacity of newly developed unit, and in this case, similar facilities are designated in consideration of power generation facility type, facility capacity, and number of trees, and calculate emissions by operating month. As a standard discharge

(5) Shutdown machines: For generators classified as maintenance and calibration, the emissions from the shutdown wall are to be taken as standard emissions.

After the baseline emissions are defined for each category and source, the target year's emissions are calculated, and the total year's emissions are calculated by multiplying the growth factors by the result of classifying the base year's emissions by source. The growth factor of the target year relative to the base year is the amount of generation, and the growth factor consists of the amount of generation by company and source, and thus the growth factor is determined.

The other type extracts air pollutant emission data stored in the base year emission input unit for each source classified as other type in the other type calculation unit 1540, and then target year air pollutant for each source classified in the other type unit 1440. Enter as emissions.

Target year emission calculation result derivation step (S1600) is performed in the target year emission calculation result deriving unit 1600, the air pollution of the current target year using the result value calculated by the target year emission calculation unit 1500 It is the step of outputting material emission data and outputting and providing current emission information for various forms of application. In addition, the current air pollutant emission data can be generated in the form of air quality (fine dust concentration, etc.) forecast modeling input data.

In this way, compared to the conventional emission estimation method that used the emission amount two or three years ago as the current standard, the methodology is established according to the growth characteristics of each emission source through the current system and the current estimation method in the present invention. Current emissions to improve the accuracy and reliability of forecasting air quality (fine dust concentration, etc.) by overcoming the time lag of data collection, and to establish, implement and evaluate air environment policies such as comprehensive measures for fine dust management. It can be used as accurate basic data. In addition, the resolution of the current emissions can be increased by using the latest detailed data and method for predicting space allocation, which are appropriate for each source methodology, and the current emissions reflecting the current air quality status can be estimated through short-term forecasts. .

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (11)

In the air pollutant discharge current system,
An emission source classification unit classifying the emission sources according to a calculation level for classifying the reference year air pollutant emission sources;
A reference year emission input unit for inputting an emission amount of air pollutants in a reference year in association with a database storing air pollutant emission data;
A growth factor extracting unit for extracting growth factors for calculating air pollutant emissions for each of the discharge sources classified by the discharge source sorting unit;
An actualization type classification unit classifying the currentization type according to the manner in which the growth factor extracted from the growth factor extraction unit contributes to the emission of air pollutants by each classification classified by the emission source classification unit;
A target year emission calculation unit for calculating an air pollutant emission of a target year for each classification classified by the emission source classification unit according to the current conversion type classified by the current conversion type classification unit; And
A target year emission calculation result deriving unit which outputs air pollutant emission data of the current target year using the result value calculated by the target year emission calculation unit; It is made, including
The current painting type classification unit,
A growth coefficient type unit for classifying an emission source whose air pollutant emission increases or decreases in proportion to a growth factor size;
Compared to the growth coefficient type, a number of complex factors act, and the source of the growth value is different for each space, the unit type unit including a vehicle, two-wheeled vehicle, ship and aviation emission source;
It is a source of electricity generated using fuel, and the source of discharge is divided by each unit, the unit of operation is divided by operation period, the growth factor is the amount of power generation, and the source of air pollutant emission varies according to the power generation method and operation period. A complex type portion classified; And
Other types of classifications for which there are no growth factors that are the basis for estimating air pollutant emissions, and which sources are classified to apply the air pollutant emissions in the base year as it is; Including;
The growth coefficient type portion,
A simple growth factor type unit in which an emission source whose value of growth factor is calculated on an annual basis is classified;
A growth factor type unit that calculates a growth factor on a monthly basis and classifies an emission source for obtaining at least a part of monthly emissions included in a target year; And
A complex growth coefficient type unit in which the growth factor type not included in the simple growth coefficient type unit and the trend growth coefficient type unit is classified as an emission source obtained through an additional data processing step; Including;
The target year emission calculation unit,
Input and decrease the air pollutant emissions increase and decrease proportional to the growth factor size for each source of the discharge source classified in the growth coefficient type unit as the growth coefficient, and the base year air pollutant emissions in the reference year for each discharge source classified in the growth coefficient type unit A growth factor type calculator for calculating a target year growth factor type air pollutant emissions by multiplying the growth factor;
Calculate the base year unit by linking with the database that stores the air pollutant emission data for each source of the source classified in the unit type unit, calculate the target year activity for each source of the source classified in the unit type unit, A unit type calculation unit configured to calculate a target year unit type type air pollutant emissions by multiplying the base year unit and the target year activity obtained for each of the source sources classified in the unit type unit;
The growth coefficient is extracted according to the increase and decrease of power generation for each unit of the discharge type classified in the complex type unit, and the standard discharge amount is set according to the operation period for each unit, and the power generation method, the reference emission amount and the growth coefficient are used. Complex type calculation unit for calculating the target year composite type air pollutant emissions; And
An other type calculation unit extracting air pollutant emission data stored in the base year emission input unit for each emission source classified in the other type unit and inputting the target year air pollutant emission amount for each emission source classified in the other type unit; Air pollutant emissions actualization system comprising a. delete delete delete In claim 1,
The operation period in the complex type calculation unit,
A retainer that continues to operate after the base year until the target year;
Waste paper retired after the base year and within the target year;
A new period established after the base year within the target year; And
A shutdown device in which shutdown occurs for some period within the target year; Air pollutant emissions actualization system, characterized in that the classification, including. In claim 5,
The reference discharge amount in the complex type calculation unit,
The breathing machine classified as the maintaining machine sets the air pollutant emissions of the reference year emission source as the standard emission amount,
Units classified as waste paper shall be set as base emissions only from the discharges of base year units until the month before the start of operation shutdown,
Units classified as the new units are defined and classified as the discharges of similar facilities in the base year facilities according to the capacity of the new units, and the amount of the operation month is set as the base emissions.
The air classifiers classified as the shut down air pollutant emissions actualization system, characterized in that to set the standard emissions by removing the shutdown of the month of the emissions of the base year. In the method of calculating the air pollutant discharge current by the air pollutant discharge current system,
An emission source classification step of classifying the emission sources according to the calculation level for classifying the reference year air pollutant emission sources in the emission source classification unit;
A reference year emission input step of inputting an air pollutant emission of the reference year in association with a database storing air pollutant emission data in the reference year emission input unit;
A growth factor extraction step of extracting a growth factor for calculating an air pollutant emission amount for each emission source classified by the emission source classification unit in a growth factor extraction unit;
A classification step for assigning a current conversion type according to a method in which a growth factor extracted from the growth factor extraction unit contributes to an emission of air pollutants for each emission source classified by the emission source classification unit;
A target year emission calculation step of calculating, by a target year emission calculation unit, air pollutant emissions in a target year for each classification classified by the emission source classification unit according to the current conversion type classified by the current conversion type classification unit; And
A target year emission calculation result deriving step of outputting air pollutant emission data of the current target year by using the result value calculated by the target year emission calculation unit in a target year emission calculation result deriving unit; It is made, including
The current painting type classification step,
The emission sources whose air pollutant emissions increase or decrease in proportion to the growth factor size are classified as growth coefficient types.
Compared to the growth coefficient type, a number of complex factors work and classify vehicles, motorcycles, ships, and aviation sources with different growth values in different spaces into raw unit types.
It generates power using fuel, the growth factor is the amount of power generation, and the sources of emission of air pollutant emissions vary depending on the power generation method and operation period.
There is no growth factor that can be used to calculate air pollutant emissions, and it includes classification of other types of emission sources that can be applied as they are.
The target year emissions calculation step,
Input the air pollutant emission increase / decrease value proportional to the growth factor size for each of the discharge sources classified as the growth coefficient type as the growth coefficient, and the growth coefficient to the base year air pollutant emissions for each source classified as the growth coefficient type. A growth coefficient type calculation step of calculating a target year growth coefficient type air pollutant emissions by multiplying by;
Calculate the base year unit by linking with the database that stores the air pollutant emission data for each source of the source classified in the unit type, calculate the target year activity for each source of the source classified in the unit type. A unit type calculation step of calculating a target year unit type air pollutant amount by multiplying the base year unit and the target year activity obtained for each source of the source classified in the type section;
The growth factor is extracted according to the increase and decrease of the generation amount of each discharge type classified into the complex type, the base discharge amount is set according to the operation period for each discharge source, and the target year is combined using the power generation method, the reference discharge amount and the growth factor. A complex type calculation step of calculating tangible air pollutant emissions; And
Calculating other types of air pollutant emissions data stored in the base year emission input unit for each source classified as the other types and inputting them as target year air pollutant emissions for each source classified as the other types; Air pollutant emissions actualization calculation method comprising a. delete delete In claim 7,
The operation period in the complex type calculation step,
A retainer that continues to operate after the base year until the target year;
Waste paper retired after the base year and within the target year;
A new period established after the base year within the target year; And
A shutdown device in which shutdown occurs for some period within the target year; Air pollutant emissions actualization calculation method characterized in that the classification, including. In claim 10,
In the complex type calculation step, the reference discharge amount is,
The discharge source classified as the holder is set as the standard discharge amount as it is, the air pollutant discharge amount of the reference year discharge source,
The discharge source classified as the waste paper shall be set as the standard discharge only from the discharge of the base year discharge source up to the month before the start of operation,
The discharge sources classified as the new installations are defined and classified as the discharges of similar facilities in the base year facilities according to the capacity of the new installation unit, and the discharge amount as much as the operation month is set as the standard discharge,
The emission source classified as the shut-down group is the air pollutant emission actualization calculation method, characterized in that to set the reference emissions by removing the shutdown of the month of the discharge of the base year.

Images