CN115511340A - Power carbon emission factor processing method and device, computer equipment and storage medium - Google Patents
Power carbon emission factor processing method and device, computer equipment and storage medium Download PDFInfo
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Abstract
The application relates to a power carbon emission factor processing method, a power carbon emission factor processing device, a computer device, a storage medium and a computer program product. The method comprises the following steps: acquiring input electric quantity, output electric quantity, input electric quantity carbon emission corresponding to the input electric quantity and output electric quantity carbon emission corresponding to the output electric quantity aiming at a first province; screening the output electricity quantity identifiable by the environmental value of the first province and the carbon emission quantity identifiable by the environmental value of the first province; the carbon emission amount of the fossil energy power generation of the first province and the annual total power generation amount are obtained, and the carbon emission amount of the fossil energy power generation, the annual total power generation amount, the input electric quantity, the carbon emission amount of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value are input into a pre-constructed provincial power grid average carbon emission factor processing model to obtain the provincial power grid average carbon emission factor of the first province. By adopting the method, the average carbon emission factor of the power grid can be accurately measured and calculated.
Description
Technical Field
The present application relates to the field of power technologies, and in particular, to a method, an apparatus, a computer device, a storage medium, and a computer program product for processing a power carbon emission factor.
Background
In the existing reports and guidelines, the calculation of indirect carbon emissions from electricity uses a method of multiplying the emission factor by the amount of electric energy consumption to perform carbon emission accounting, and the carbon emission factor uses a grid average carbon emission factor. In addition, when the average carbon emission factor of the power grid is currently measured and calculated, the coverage range of the power grid is taken as a boundary, and the source of the carbon emission related to the electric power is spread to all the electric quantity.
However, in the actual operation process of the power grid, the electricity sent out from the provincial region contains the generated energy of a plurality of different power generation types. The existing average carbon emission factor of the power grid measured and calculated in an average apportionment mode cannot accurately depict indirect carbon emission implied by power interaction between provincial sections, so that the calculation result of the average carbon emission factor of the provincial power grid has large deviation and low accuracy.
Disclosure of Invention
In view of the above, it is necessary to provide a power carbon emission factor processing method, a device, a computer readable storage medium, and a computer program product, which can accurately measure and calculate the average carbon emission factor of the provincial power grid.
In a first aspect, the present application provides a power carbon emission factor treatment method. The method comprises the following steps:
acquiring input electric quantity and output electric quantity aiming at a first province, and acquiring input electric quantity and carbon emission corresponding to the input electric quantity and output electric quantity and carbon emission corresponding to the output electric quantity;
screening the output electric quantity recognizable by the environmental value of the first province from the output electric quantity of the first province, and screening the output electric quantity recognizable by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity which can be identified by the environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity;
and acquiring carbon emission of fossil energy power generation of the first province and annual total power generation, inputting the carbon emission of the fossil energy power generation, the annual total power generation, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and acquiring the province-level power grid average carbon emission factor of the first province.
In one embodiment, the obtaining of the fossil-energy-based power generation carbon emission of the first province includes:
acquiring the power generation coal consumption, the fossil energy power generation amount and the fossil energy carbon emission factor of the first province;
inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the fossil fuel consumption of the first province;
and inputting the consumption amount of the fossil fuel and the carbon emission factor of the fossil energy into a processing model of carbon emission amount of power generation of the fossil energy to obtain the carbon emission amount of power generation of the fossil energy of the first province.
In one embodiment, the input electric quantity comprises a provincial input electric quantity, a foreign input electric quantity and a regional power grid input electric quantity; the input electric quantity carbon emission comprises the carbon emission of the input electric quantity of the province, the carbon emission of the input electric quantity of the foreign country and the carbon emission of the input electric quantity of the regional power grid; the external province input electric quantity is the sum of input electric quantities of a second province aiming at the first province, the carbon emission quantity of the external province input electric quantity is the sum of the carbon emission quantity of the input electric quantity of the second province aiming at the first province, and the second province is the province except the first province in each province; the foreign country input electric quantity is the sum of input electric quantity of a first country aiming at the first province, the carbon emission quantity of the foreign country input electric quantity is the sum of input electric quantity of the first country aiming at the first province, and the first country is other countries except the country to which the first province belongs; the input electric quantity of the regional power grid is the input electric quantity of the regional power grid in which the first province is located aiming at the first province;
the carbon emission of the input electric quantity of the external province is obtained by the following method:
acquiring the fossil energy power generation amount, the non-fossil energy power generation amount and the carbon emission amount input to the first province by the second province, the fossil energy power generation amount and the carbon emission factor, the environment value unidentifiable electric quantity and the average carbon dioxide emission factor of the power saving network of the second province; the electric quantity which cannot be identified by the environmental value is the electric quantity generated by the power generation mode of which the power generation type cannot be identified;
inputting the fossil energy power generation amount, the non-fossil energy power generation amount and the carbon emission amount of the second province to the first province, the fossil energy power generation amount and the carbon emission factor, the environment value unidentifiable electric quantity and the power saving network average carbon dioxide emission factor of the second province, and inputting a pre-constructed external province input electric quantity and carbon emission amount processing model to obtain the input electric quantity and the carbon emission amount of the second province;
and carrying out fusion processing on the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province.
In one embodiment, the carbon emission of the foreign input electric quantity is obtained by the following steps:
acquiring fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity input to the first province by the first country, fossil energy power generation electric quantity and carbon emission factor, environment value unidentifiable electric quantity and national power grid average carbon dioxide emission factor of the first country;
inputting fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity, fossil energy power generation electric quantity and carbon emission factor, environment value unidentifiable electric quantity and national power grid average carbon dioxide emission factor of the first country, which are input to the first province by the first country, and inputting a pre-constructed foreign input electric quantity and carbon emission quantity processing model to obtain input electric quantity and carbon emission quantity of the first country;
and carrying out fusion processing on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country.
In one of the embodiments, the first and second electrodes are, the carbon emission of the input electric quantity of the regional power grid is obtained by the following method:
acquiring fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity, fossil energy power generation electric quantity and carbon emission factor, environment value unidentifiable electric quantity and average carbon dioxide emission factor of the regional power grid, which are input to the first province by the regional power grid;
and inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission quantity, the fossil energy power generation electric quantity and the carbon emission factor, the environment value unidentifiable electric quantity and the average carbon dioxide emission factor of the regional power grid, which are input to the first province by the regional power grid, into a pre-constructed regional power grid input electric quantity and carbon emission quantity processing model to obtain the input electric quantity and the carbon emission quantity of the regional power grid.
In one embodiment, the screening the output electric quantity carbon emission quantity recognizable by the environmental value of the first province from the output electric quantity carbon emission quantity of the first province includes:
screening out fossil energy power generation electric quantity and non-fossil energy power generation electric quantity from the output electric quantity identifiable by the environmental value of the first province,
and acquiring a fossil energy power generation electric quantity carbon emission factor and a non-fossil energy power generation electric quantity carbon emission quantity of the first province, and inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity, the fossil energy power generation electric quantity carbon emission factor of the first province and the non-fossil energy power generation electric quantity carbon emission quantity into a pre-constructed processing model with identifiable output electric quantity carbon emission quantity of environmental value to obtain the identifiable output electric quantity carbon emission quantity of the environmental value of the first province.
In a second aspect, the application further provides an electric carbon emission factor processing device. The device comprises:
the parameter acquisition module is used for acquiring input electric quantity and output electric quantity aiming at a first province, input electric quantity carbon emission corresponding to the input electric quantity and output electric quantity carbon emission corresponding to the output electric quantity;
the parameter screening module is used for screening the output electric quantity recognizable by the environmental value of the first province from the output electric quantity of the first province and screening the carbon emission quantity recognizable by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity which can be identified by the environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity;
and the parameter processing module is used for acquiring the carbon emission amount of the fossil energy power generation of the first province and the annual total power generation amount, inputting the carbon emission amount of the fossil energy power generation, the annual total power generation amount, the input electric quantity, the carbon emission amount of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and obtaining the province-level power grid average carbon emission factor of the first province.
In a third aspect, the present application also provides a computer device. The computer device comprises a memory storing a computer program and a processor implementing the following steps when executing the computer program:
acquiring input electric quantity and output electric quantity aiming at a first province, and acquiring input electric quantity and carbon emission corresponding to the input electric quantity and output electric quantity and carbon emission corresponding to the output electric quantity;
screening the output electric quantity recognizable by the environmental value of the first province from the output electric quantity of the first province, and screening the output electric quantity recognizable by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity which can be identified by the environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity;
and acquiring carbon emission of fossil energy power generation of the first province and annual total power generation, inputting the carbon emission of the fossil energy power generation, the annual total power generation, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and acquiring the province-level power grid average carbon emission factor of the first province.
In a fourth aspect, the present application further provides a computer-readable storage medium. The computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of:
acquiring input electric quantity and output electric quantity for a first province, input electric quantity carbon emission corresponding to the input electric quantity and output electric quantity carbon emission corresponding to the output electric quantity;
screening the output electric quantity recognizable by the environmental value of the first province from the output electric quantity of the first province, and screening the output electric quantity recognizable by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity which can be identified by the environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity;
and acquiring carbon emission of fossil energy power generation of the first province and annual total power generation, inputting the carbon emission of the fossil energy power generation, the annual total power generation, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and acquiring the province-level power grid average carbon emission factor of the first province.
In a fifth aspect, the present application further provides a computer program product. The computer program product comprising a computer program which when executed by a processor performs the steps of:
acquiring input electric quantity and output electric quantity aiming at a first province, and acquiring input electric quantity and carbon emission corresponding to the input electric quantity and output electric quantity and carbon emission corresponding to the output electric quantity;
screening the output electric quantity identifiable by the environmental value of the first province from the output electric quantity of the first province, and screening the output electric quantity identifiable by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity which can be identified by the environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity;
and acquiring carbon emission of fossil energy power generation of the first province and annual total power generation, inputting the carbon emission of the fossil energy power generation, the annual total power generation, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and acquiring the province-level power grid average carbon emission factor of the first province.
According to the power carbon emission factor processing method, the device, the computer equipment, the storage medium and the computer program product, the input electric quantity, the output electric quantity, the input electric quantity carbon emission quantity corresponding to the input electric quantity and the output electric quantity carbon emission quantity corresponding to the output electric quantity are obtained for the first province; screening the output electricity quantity which can be identified by the environmental value of the first province from the output electricity quantity of the first province, and screening the carbon emission quantity which can be identified by the environmental value of the first province from the carbon emission quantity of the output electricity quantity of the first province; and then acquiring carbon emission and annual total generated energy of the fossil energy power generation of the first province, inputting the carbon emission of the fossil energy power generation, the annual total generated energy, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed provincial power grid average carbon emission factor processing model, and finally obtaining the provincial power grid average carbon emission factor of the first province. The method comprehensively utilizes various data such as input electric quantity, output electric quantity, input electric quantity carbon emission corresponding to the input electric quantity, output electric quantity carbon emission corresponding to the output electric quantity and the like of the power grid, further distinguishes the input electric quantity, the output electric quantity, the input electric quantity carbon emission and the output electric quantity carbon emission, clearly identifies environmental value information contained in power interaction, considers fairness and accuracy, and accurately calculates the average carbon emission factor of the power grid.
Drawings
FIG. 1 is a schematic flow chart of a method for processing an electrical carbon emission factor according to an embodiment;
FIG. 2 is a schematic flow chart illustrating the step of obtaining the carbon emission from the fossil energy power generation of the first province in one embodiment;
FIG. 3 is a schematic flow chart illustrating the step of screening the environmental value identifiable output electric quantity carbon emission of the first province according to one embodiment;
FIG. 4 is a schematic flow chart of a method for processing an electrical carbon emission factor according to another embodiment;
FIG. 5 is a block diagram showing the structure of an apparatus for processing an electrical carbon emission factor according to an embodiment;
FIG. 6 is a diagram illustrating an internal structure of a computer device according to an embodiment.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.
In one embodiment, as shown in fig. 1, a power carbon emission factor processing method is provided, and this embodiment is illustrated by applying the method to a terminal, and it is to be understood that the method may also be applied to a server, and may also be applied to a system including a terminal and a server, and is implemented by interaction between the terminal and the server. In this embodiment, the method includes the steps of:
step S101, acquiring input electric quantity, output electric quantity, input electric quantity carbon emission corresponding to the input electric quantity and output electric quantity carbon emission corresponding to the output electric quantity aiming at the first province.
The input electric quantity refers to electric quantity input to the province in other regions, and comprises the input electric quantity of the province, the input electric quantity of a foreign country and the input electric quantity of a regional power grid; the output electric quantity refers to the electric quantity output to other areas by the province; the input electric quantity carbon emission refers to the carbon emission corresponding to the electric quantity input to the province in other areas, and comprises the carbon emission of the input electric quantity of the province, the carbon emission of the input electric quantity of the foreign country and the carbon emission of the input electric quantity of the regional power grid; the output electric quantity carbon emission refers to the carbon emission corresponding to the electric quantity output to other areas by the province.
Specifically, the terminal receives an acquisition request of an average carbon emission factor of the provincial power grid for a first province, and queries the power database according to the acquisition request to obtain input electric quantity, output electric quantity, input electric quantity carbon emission quantity corresponding to the input electric quantity and output electric quantity carbon emission quantity corresponding to the output electric quantity for the first province.
For example, the terminal obtains an input electric quantity of 1000MWh, an output electric quantity of 300MWh and an input electric quantity of 10t CO corresponding to the input electric quantity for the first province 2 And the carbon emission amount of the output electricity corresponding to the output electricity is 3t CO 2 。
Step S102, screening the output electric quantity which can be identified by the environmental value of the first province from the output electric quantity of the first province, and screening the carbon emission quantity which can be identified by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity with the identifiable environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity.
The output electric quantity with the identifiable environmental value means that the output electric quantity can be divided into fossil energy power generation electric quantity and non-fossil energy power generation electric quantity; the carbon emission amount of the output electricity quantity with distinguishable environmental value means that the carbon emission amount can be distinguished into the carbon emission amount of fossil energy power generation and the carbon emission amount of non-fossil energy power generation.
Specifically, the terminal acquires an output electric quantity recognition instruction with a recognizable environmental value and an output electric quantity carbon emission recognition instruction with a recognizable environmental value; an output electric quantity recognizable command is recognized according to the environmental value, the output electric quantity recognizable by the environmental value of the first province is screened out from the output electric quantity of the first province, and screening the output electric quantity carbon emission quantity recognizable by the environmental value of the first province from the output electric quantity carbon emission quantity recognizable by the environmental value of the first province according to the output electric quantity carbon emission quantity recognizable by the environmental value.
To illustrate, the terminal starts from the firstScreening the output electricity quantity 300MWh of the province that the environment value recognizable output electricity quantity of the first province is 200MWh and the carbon emission quantity 3tCO from the output electricity quantity of the first province 2 In the method, the carbon emission of the output electricity quantity which can be identified by the environmental value of the first province is 2t CO 2 。
Step S103, acquiring carbon emission and annual total generated energy of the fossil energy power generation of the first province, inputting the carbon emission, annual total generated energy, input electric quantity, carbon emission of input electric quantity, distinguishable output electric quantity of environmental value and distinguishable output electric quantity of environmental value of the fossil energy power generation, and inputting a pre-constructed province-level power grid average carbon emission factor processing model to obtain the province-level power grid average carbon emission factor of the first province.
The provincial power grid average carbon emission factor processing model is a model abstracted by a provincial power grid average carbon emission factor processing formula; the provincial power grid average carbon emission factor processing formula refers to
In the formula EF p The average carbon emission factor of the provincial power grid of p provinces; em p Carbon emission of fossil energy power generation in p province, and the unit is t CO 2 ;∑ n Em n,p Sum of carbon emissions of input electric quantity from n province to p province in t CO 2 ;∑ k Em k,p Is the sum of carbon emission of input electricity quantity of K nation to P province, and the unit is t CO 2 ;Em Grid,i,p Carbon emission in t CO for regional grid to p province input electricity 2 ;Em exp,iden,p The carbon emission of the output electricity quantity can be identified for the environmental value of p province, and the unit is t CO 2 ;E p The unit is MWh, which is the total annual power generation of p province; sigma n E imp,n,p The sum of the input electric quantities from n province to p province is MWh, sigma kE imp,k,p The sum of the input electric energy of k nations to p province is MWh, E imp,i,p Input electric quantity of regional power grid to p province, unit is MWh, E exp,iden,p The output power is recognizable for the environmental value of p province, and the unit is MWh. Provincial power gridThe average carbon emission factor is a parameter required in calculating the amount of carbon emissions implied by power consumption.
Specifically, the terminal receives an acquisition request aiming at the provincial power grid average carbon emission factor of the first province, queries a power database according to the acquisition request to obtain the fossil energy power generation carbon emission and the annual total power generation amount of the first province, and inputs a pre-constructed provincial power grid average carbon emission factor processing model to obtain the provincial power grid average carbon emission factor of the first province according to the fossil energy power generation carbon emission, the annual total power generation amount, the input electric quantity carbon emission, the identifiable output electric quantity of the environmental value and the identifiable output electric quantity carbon emission of the environmental value.
For example, the carbon emission of the terminal for acquiring the first province of fossil energy power generation is 20t CO 2 And the annual total power generation amount is 8000MWh, and the carbon emission amount of the fossil energy power generation is 20t CO 2 8000MWh of annual total generated energy, 1000MWh of input electric quantity and 10t CO of carbon emission of input electric quantity 2 The output electric quantity of 200MWh can be identified by the environmental value, and the carbon emission of 2t CO can be identified by the environmental value 2 And inputting a pre-constructed provincial power grid average carbon emission factor processing model to obtain a provincial power grid average carbon emission factor of 1.5 of the first province.
In the electric power carbon emission factor processing method, the input electric quantity, the output electric quantity, the input electric quantity carbon emission quantity corresponding to the input electric quantity and the output electric quantity carbon emission quantity corresponding to the output electric quantity are obtained for the first province; screening the output electricity quantity which can be identified by the environmental value of the first province from the output electricity quantity of the first province, and screening the carbon emission quantity which can be identified by the environmental value of the first province from the carbon emission quantity of the output electricity quantity of the first province; and then acquiring the carbon emission and the annual total generated energy of the fossil energy power generation of the first province, inputting the carbon emission, the annual total generated energy, the input electric quantity, the carbon emission, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and finally obtaining the province-level power grid average carbon emission factor of the first province. The method comprehensively utilizes various data such as input electric quantity, output electric quantity, input electric quantity carbon emission corresponding to the input electric quantity, output electric quantity carbon emission corresponding to the output electric quantity and the like of the power grid, further distinguishes the output electric quantity and the output electric quantity carbon emission, clearly identifies environmental value information contained in power interaction, considers fairness and accuracy, and accurately calculates the average carbon emission factor of the power grid.
In an exemplary embodiment, as shown in fig. 2, in the step S103, the obtaining of the first provincial carbon emission from fossil energy power generation specifically includes the following steps:
step S201, acquiring the power generation coal consumption, the fossil energy power generation amount and the fossil energy carbon emission factor of the first province.
Step S202, inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the fossil fuel consumption of the first province.
And step S203, inputting the consumption amount of fossil fuel and the carbon emission factor of the fossil energy into a processing model of the carbon emission amount of the fossil energy power generation to obtain the carbon emission amount of the fossil energy power generation of the first province.
Wherein the fossil fuel consumption processing model is FC m =E m ×CG m In the formula, FC m Consumption of fossil fuel m, p province, in units of tce; e m Is the fossil energy generated energy of p province, and the unit is MWh; CG (CG) m The unit is tce/MW & h for the coal consumption of power generation of P province. The model for processing carbon emission in fossil energy power generation is Em p =∑ m (FC m ×EF m ) In the formula Em p Carbon emission in tCO for fossil energy power generation of p province 2 ;EF m The integrated carbon emission factor of fossil fuel m, in t CO 2 /tce; m is a fossil fuel species consumed for power generation, such as coal, oil, and natural gas.
Specifically, the terminal receives an acquisition request aiming at the provincial power grid average carbon emission factor of a first province, and queries an electric power database according to the acquisition request to obtain the electricity generation coal consumption, the fossil energy electricity generation amount and the fossil energy carbon emission factor of the first province; then inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the consumption of the fossil fuel m of the first province; and finally, inputting the consumption amount of the fossil fuel m of the first province and the carbon emission factor of the fossil energy into a processing model of the carbon emission amount of the fossil energy power generation to obtain the carbon emission amount of the fossil energy power generation of the first province.
For example, the coal consumption of the first province obtained by the terminal for coal-fired power generation is 200tce/MW & h, the coal consumption of the gas-fired power generation is 100tce/MW & h, the power generation amount of the coal-fired power generation is 2000MWh, the power generation amount of the natural gas is 3000MWh, the total power generation amount of fossil energy is 5000MWh, and the comprehensive carbon emission factor of the coal-fired power generation is 20t CO 2 The comprehensive carbon emission factor of the/tce and the fuel gas is 10t CO 2 /tce; then the coal consumption of 200tce/MW & h and the coal power generation amount of 2000MWh of the first province, the coal consumption of 100tce/MW & h and the natural gas power generation amount of 3000MWh of the first province are respectively input into a fossil fuel consumption processing model to obtain the coal consumption of 4 multiplied by 10 of the first province 5 tce and natural gas consumption 3 x 10 5 tce; finally, the coal consumption of the first province is 4 multiplied by 10 5 tce and coal fired integrated carbon emission factor 20t CO 2 /tce, and natural gas consumption 3 × 10 5 tce and gas have an integrated carbon emission factor of 10t CO 2 The/tce is respectively input into the fossil energy power generation carbon emission treatment model to obtain the first province fossil energy power generation carbon emission 1.1 multiplied by 10 7 tce。
In the embodiment, the power generation coal consumption, the fossil energy power generation amount and the fossil energy carbon emission factor of the first province are obtained; then inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the fossil fuel consumption of the first province; and finally, inputting the consumption amount of the fossil fuel and the carbon emission factor of the fossil energy into a processing model of the carbon emission amount of the fossil energy power generation to obtain the carbon emission amount of the fossil energy power generation of the first province. Therefore, the carbon emission of the province fossil energy power generation can be accurately calculated, and the provincial power grid average carbon emission factor is laid for the next calculation.
In an exemplary embodiment, the carbon emission of the provincial input electric quantity is obtained by the following method: acquiring fossil energy power generation electric quantity, a fossil energy power generation electric quantity carbon emission factor, non-fossil energy power generation electric quantity carbon emission quantity, environment value unidentifiable electric quantity and a power-saving network average carbon dioxide emission factor of a second province input to the first province by the second province; inputting the fossil energy power generation electric quantity, the fossil energy power generation electric quantity carbon emission factor, the non-fossil energy power generation electric quantity carbon emission quantity, the environment value unidentifiable electric quantity and the power saving network average carbon dioxide emission factor of the second province, which are input to the first province by the second province, and inputting a pre-constructed external province input electric quantity carbon emission quantity processing model to obtain the input electric quantity carbon emission quantity of the second province; and carrying out fusion treatment on the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province.
The power generation type is not identified, wherein the power generation type is not identified, and the power generation type is not identified; the model for processing carbon emission of input electric quantity of province refers to Em n,p =∑ m (E m,n,p ×EF m,n,p )+Em Non fossil n, p +EF n ×E n,p In the formula Em n,p The input of electricity for n province to p province includes carbon emission in t CO 2 ;E m,n,p Inputting the electricity generation quantity of fossil fuel m with identifiable environmental value for n province to p province, wherein the unit is MWh; EF m,n,p Inputting a carbon emission factor of fossil fuel m with identifiable environmental value from n province to p province, wherein the unit is kg CO 2 /kWh;Em Non fossil n, p The carbon emission is contained in the non-fossil energy power generation electricity with distinguishable environmental value from n province to p province, and the unit is t CO 2 ;EF n Average CO of n-provincial power networks for inputting power to p-province 2 Emission factor in kg CO 2 /kWh;E n,p Inputting electric quantity with unrecognizable environmental value from n province to p province, wherein the unit is MWh; n is other provinces for inputting electric quantity to p provinces; and the fusion processing refers to accumulating and summing the carbon emission of the input electric quantity of each second province.
Specifically, the carbon emission of the input electric quantity of the province is obtained by the following method: the method comprises the steps that a terminal receives an acquisition request aiming at the provincial power grid average carbon emission factor of a first province, and queries a power database according to the acquisition request to obtain fossil fuel m electricity generation quantity with a recognizable environmental value, non-fossil energy electricity generation quantity with a recognizable environmental value and containing carbon emission quantity, fossil fuel m electricity generation quantity with a recognizable environmental value and carbon emission factor, and electricity-saving power grid average carbon dioxide emission factor of a second province, wherein the fossil fuel m electricity generation quantity with a recognizable environmental value and the carbon emission factor are input to the first province by the second province; inputting the fossil fuel m electricity generation quantity with distinguishable environmental value, the non-fossil energy electricity generation quantity with distinguishable environmental value, the carbon emission quantity, the fossil fuel m electricity generation quantity with distinguishable environmental value, the carbon emission factor, the non-identifiable environmental value and the average carbon dioxide emission factor of the power saving network of the second province from the second province, and inputting a pre-constructed external province input electricity quantity carbon emission quantity processing model to obtain the input electricity quantity carbon emission quantity of the second province; and performing fusion processing on the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province.
For example, the terminal obtains the power generation amount of the non-fossil energy including the carbon emission amount of 0t CO and the power generation amount of the coal burning input from the second province to the first province is 200MWh, the power generation amount of the natural gas is 300MWh and the environment value is distinguishable 2 Carbon emission factor of coal-fired power generation electric quantity with identifiable environmental value being 3kg CO 2 kWh, natural gas power generation electric quantity carbon emission factor with identifiable environmental value is 2kg CO 2 kWh, 300MWh of unrecognizable electric quantity of environmental value and 2kg of CO as the average carbon dioxide emission factor of the power saving network of the second province 2 The total amount of the power generation electric quantity of the fossil fuel with distinguishable environmental value is 500MWh; the coal-fired power generation amount of 200MWh and the natural gas power generation amount of 300MWh are input from the second province to the first province, and the carbon emission amount of 0t CO is identified by the environment value 2 Carbon emission factor 3kg CO of coal-fired power generation electric quantity with identifiable environmental value 2 kWh and natural gas power generation electric quantity carbon emission factor with identifiable environmental value of 2kg CO 2 kWh, unrecognizable electric quantity of environmental value 3Average carbon dioxide emission factor of 2kg CO of power saving network of 00MWh and second province 2 Inputting a pre-constructed processing model of carbon emission of input electric quantity of the other province into the kWh to obtain the carbon emission of the input electric quantity of 1.8 multiplied by 10 of one second province 3 t CO 2 (ii) a The total number of the second provinces is 3, and the carbon emission of the input electric quantity of the other two second provinces is 3.9 multiplied by 10 3 t CO 2 And 3.0X 10 3 tCO 2 (ii) a Finally, the carbon emission of the input electric quantity of each second province is fused to obtain the carbon emission of the input electric quantity of the external province of 8.7 multiplied by 10 3 t CO 2 。
In this embodiment, the power generation amount of fossil energy, the power generation amount of non-fossil energy, the carbon emission factor of fossil energy, the power generation amount of environmental value unidentifiable power, and the average carbon dioxide emission factor of the power saving network of the second province are obtained by inputting the power generation amount of fossil energy, the carbon emission amount of non-fossil energy to the first province from the second province; inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission quantity input to the first province by the second province, the fossil energy power generation electric quantity and the carbon emission factor, the environment value unidentifiable electric quantity and the power saving network average carbon dioxide emission factor of the second province, and inputting a pre-constructed external province input electric quantity and carbon emission quantity processing model to obtain the input electric quantity and the carbon emission quantity of the second province; and carrying out fusion treatment on the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province. Therefore, the carbon emission amount of the input electric quantity of the external province of the first province can be accurately calculated, and the calculation of the average carbon emission factor of the provincial power grid is laid for the next step.
In an exemplary embodiment, the carbon emissions of the foreign input electric quantity are obtained by: acquiring fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity input to a first province by a first country, fossil energy power generation electric quantity and carbon emission factor, environment value unidentifiable electric quantity and national power grid average carbon dioxide emission factor of the first country; inputting fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity, fossil energy power generation electric quantity and carbon emission factors, environment value unidentifiable electric quantity and national power grid average carbon dioxide emission factors of a first country, which are input to a first country, into a pre-constructed foreign input electric quantity and carbon emission quantity processing model to obtain input electric quantity and carbon emission quantity of the first country; and carrying out fusion processing on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country.
Wherein, the carbon emission processing model of the foreign input electric quantity is Em k,p =∑ m (E m,k,p ×EF m,k,p )+Em Nonfossil, k, p +EF k ×E k,p In the formula Em k,p The unit is t CO for inputting electric quantity to p province of K nation and containing carbon emission 2 ;E m,k,p Inputting the power generation quantity of fossil fuel m with identifiable environmental value to p province in K nation, wherein the unit is MWh; EF m,k,p Inputting a fossil fuel m electricity generation quantity carbon emission factor with identifiable environmental value for k nation to p province, wherein the unit is kg CO 2 /kWh;Em Nonfossil, k, p Carbon emission in t CO is input into p province of K nation, and non-fossil energy power generation electricity with identifiable environmental value 2 ;EF k K state power grid average CO for inputting electric quantity to p province 2 Emission factor in kg CO 2 /kWh;E k,p Inputting electric quantity with unrecognizable environmental value to p province in K nation, wherein the unit is MWh; k is the country inputting electric quantity to p provinces; the fusion processing refers to the accumulation and summation of the carbon emission of the input electric quantity of each first country.
Specifically, the carbon emission of the foreign input electricity is obtained by the following method: the method comprises the steps that a terminal receives an acquisition request aiming at the provincial power grid average carbon emission factor of a first province, and inquires a power database according to the acquisition request to obtain fossil fuel m electricity generation quantity with a recognizable environmental value, non-fossil energy electricity generation quantity with a recognizable environmental value and carbon emission quantity, fossil fuel m electricity generation quantity with a recognizable environmental value and carbon emission factor, and national power grid average carbon dioxide emission factor of the first country, which are input to the first province by the first country; inputting fossil fuel m electricity generation quantity with distinguishable environmental value, non-fossil energy electricity generation quantity carbon emission quantity with distinguishable environmental value, fossil fuel m electricity generation quantity carbon emission factor with distinguishable environmental value, non-distinguishable environmental value and national power grid average carbon dioxide emission factor of a first country, which are input to the first country, into a pre-constructed foreign input electricity carbon emission quantity processing model to obtain the input electricity carbon emission quantity of the first country; and carrying out fusion processing on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country.
For example, the terminal obtains the power generation amount of the non-fossil energy including the carbon emission amount of 0t CO and the power generation amount of the natural gas of 200MWh and the environment value distinguishable from the power generation amount of the non-fossil energy of the first country to the first province 2 Carbon emission factor of coal-fired power generation electric quantity with identifiable environmental value being 3kg CO 2 kWh, natural gas power generation electric quantity carbon emission factor with identifiable environmental value is 2kg CO 2 kWh, unrecognizable electric quantity of environmental value 400MWh and national grid average carbon dioxide emission factor of first country of 3kg CO 2 The electricity generation quantity of fossil fuel with identifiable environmental value is 600MWh in total; the coal-fired power generation amount input to the first province by the first country is 200MWh, the natural gas power generation amount is 400MWh, and the carbon emission amount of the non-fossil energy power generation electric quantity with identifiable environmental value is 0t CO 2 Carbon emission factor 3kg CO of coal-fired power generation electric quantity with identifiable environmental value 2 kWh and natural gas power generation electric quantity carbon emission factor with identifiable environmental value of 2kg CO 2 kWh, 400MWh of unidentifiable electric quantity of environmental value and 3kg CO of national power grid average carbon dioxide emission factor of first country 2 The method comprises the steps of inputting a pre-constructed processing model of carbon emission of input electric quantity of province to obtain the carbon emission of the input electric quantity of 2.6 multiplied by 10 of one first country 3 t CO 2 (ii) a The total number of the first countries is 3, and the carbon emission of the input electric quantity of the other two first countries is 4.9 multiplied by 10 3 t CO 2 And 4.0X 10 3 t CO 2 (ii) a Finally, the carbon emission of the input electric quantity of each first country is fused to obtain the carbon emission of the input electric quantity of the foreign country which is 11.5 multiplied by 10 3 t CO 2 。
In this embodiment, the fossil energy power generation amount, the non-fossil energy power generation amount, the carbon emission amount, the fossil energy power generation amount, the carbon emission factor, the environment value unidentifiable electric quantity, and the national grid average carbon dioxide emission factor of the first country, which are input to the first province by the first country, are acquired; inputting fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity, fossil energy power generation electric quantity and carbon emission factor, unidentifiable electric quantity of environmental value and national power grid average carbon dioxide emission factor of a first country, which are input to the first country, into a pre-constructed province input electric quantity and carbon emission quantity processing model to obtain input electric quantity and carbon emission quantity of the first country; and carrying out fusion processing on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country. Therefore, the carbon emission of the foreign input electric quantity of the first province can be accurately calculated, and the calculation of the average carbon emission factor of the provincial power grid is laid for the next step.
In an exemplary embodiment, the regional power grid input electric quantity carbon emission is obtained by the following steps: acquiring fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity, fossil energy power generation electric quantity and carbon emission factors, environment value unidentifiable electric quantity and average carbon dioxide emission factors of a regional power grid, which are input to a first province by the regional power grid; inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission quantity, the fossil energy power generation electric quantity and the carbon emission factor, the environment value unidentifiable electric quantity and the average carbon dioxide emission factor of the regional power grid, which are input to the first province by the regional power grid, into a pre-constructed regional power grid input electric quantity and carbon emission quantity processing model to obtain the input electric quantity and the carbon emission quantity of the regional power grid.
The regional power grid input electricity carbon emission processing model refers to Em Grid,i,p =∑ m (E m,i,p ×EF m,i,p )+Em Non fossil, i, p +EF Grid,i ×E i,p In the formula Em Grid,i,p The input of electricity to p province for regional power grid i contains carbon emission in t CO 2 ;E m,i,p Inputting the power generation quantity of fossil fuel m with distinguishable environmental value to p province for a regional power grid i, wherein the unit is MWh; EF m,i,p Inputting a fossil fuel m electricity generation quantity carbon emission factor with distinguishable environmental value from a regional power grid i to a p province, wherein the unit is kg CO 2 /kWh;Em Non fossil, i, p Inputting identifiable non-fossil energy electric quantity with carbon emission in the unit of t CO into p province for regional power grid i 2 ;EF Grid,i Average CO for regional grid i 2 Emission factor in kg CO 2 /kWh;E i,p Inputting electric quantity with unrecognizable environmental value to p province for a regional power grid i, wherein the unit is MWh; and i is the regional power grid in which p province is located.
Specifically, the carbon emission of the input electric quantity of the regional power grid is obtained by the following steps: the method comprises the steps that a terminal receives an acquisition request aiming at an average carbon emission factor of a provincial power grid of a first province, and inquires a power database according to the acquisition request to obtain fossil fuel m electricity generation quantity with a recognizable environmental value, non-fossil energy electricity generation quantity carbon emission quantity with a recognizable environmental value, fossil fuel m electricity generation quantity carbon emission factor with a recognizable environmental value, unidentifiable environmental value and an average carbon dioxide emission factor of the regional power grid, wherein the fossil fuel m electricity generation quantity carbon emission factor with a recognizable environmental value is input to the first province by a regional power grid; inputting fossil fuel m electricity generation quantity with distinguishable environmental value, non-fossil energy electricity generation quantity carbon emission quantity with distinguishable environmental value, fossil fuel m electricity generation quantity carbon emission factor with indistinguishable environmental value and average carbon dioxide emission factor of a regional power grid, which are input into a pre-constructed regional power grid input electricity quantity carbon emission quantity processing model, and obtaining the input electricity quantity carbon emission quantity of the regional power grid.
For example, the terminal obtains the coal-fired power generation amount of 200MWh and the natural gas power generation amount of 200MWh input to the first province from the regional power grid, and the carbon emission amount of the non-fossil energy power generation amount with distinguishable environmental value is 0t CO 2 Carbon emission factor of coal-fired power generation electric quantity with identifiable environmental value being 3kg CO 2 kWh, natural gas power generation electric quantity carbon emission factor with identifiable environmental value is 2kg CO 2 kWh, 200MWh of unrecognizable electric quantity of environmental value and 3kg of CO as an average carbon dioxide emission factor of regional power grid 2 kWh, thenThe power generation capacity of fossil fuel with identifiable environmental value is 400MWh in total; the coal-fired power generation amount input to the first province by the regional power grid is 200MWh, the natural gas power generation amount is 200MWh, the carbon emission amount of the non-fossil energy power generation electric quantity with distinguishable environmental value is 0t CO2, and the carbon emission factor of the coal-fired power generation electric quantity with distinguishable environmental value is 3kg CO 2 kWh and natural gas power generation electric quantity carbon emission factor with identifiable environmental value of 2kg CO 2 kWh, 200MWh of unidentifiable electric quantity of environment value and 3kg CO of average carbon dioxide emission factor of regional power grid 2 The method comprises the steps of inputting a pre-constructed regional power grid input electricity carbon emission processing model to obtain the input electricity carbon emission of a regional power grid of 1.6 multiplied by 10 3 t CO 2 。
In the embodiment, the fossil energy power generation amount, the non-fossil energy power generation amount and the carbon emission amount input to the first province by the regional power grid, the fossil energy power generation amount and the carbon emission factor, the environment value unidentifiable electric quantity and the average carbon dioxide emission factor of the regional power grid are obtained; inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission quantity, the fossil energy power generation electric quantity and the carbon emission factor, the environment value unidentifiable electric quantity and the average carbon dioxide emission factor of the regional power grid, which are input to the first province by the regional power grid, into a pre-constructed regional power grid input electric quantity and carbon emission quantity processing model to obtain the input electric quantity and the carbon emission quantity of the regional power grid. Therefore, the carbon emission of the regional power grid to the input electric quantity of the first province can be accurately calculated, and the calculation of the average carbon emission factor of the provincial power grid is laid for the next step.
In an exemplary embodiment, as shown in fig. 3, the step S102 of screening the output electric quantity carbon emission quantity recognizable by the environmental value of the first province from the output electric quantity carbon emission quantity of the first province specifically includes the following steps:
step S301, the fossil energy power generation electric quantity and the non-fossil energy power generation electric quantity are screened out from the output electric quantity which can be identified by the environmental value of the first province.
Step S302, acquiring a carbon emission factor of the fossil energy power generation electric quantity of the first province and a carbon emission amount of the non-fossil energy power generation electric quantity, and inputting the carbon emission factor of the fossil energy power generation electric quantity of the first province and the carbon emission amount of the non-fossil energy power generation electric quantity into a pre-constructed processing model of the carbon emission amount of the identifiable output electric quantity of the environmental value to obtain the carbon emission amount of the identifiable output electric quantity of the environmental value of the first province.
Wherein the processing model with distinguishable environmental value for carbon emission of output electricity is Em exp,iden,p =∑ m (E m,iden,p ×EF m,p )+Em Nonfossil, iden, p In the formula Em exp,iden,p Sending identifiable electric quantity carbon-containing emission for p province to foreign provinces, foreign countries and regional power grids in which p province is located, wherein t CO is unit 2 ;E m,iden,p Sending out identifiable fossil fuel m generated electricity quantity for p province, foreign province and regional power grid where the p province, wherein the unit is MWh; EF m,p Fossil fuel m electricity generation quantity carbon emission factor of p province, and the unit is kg CO 2 /kWh; m is the fossil fuel type consumed by power generation; em Non-chemical, iden, p Sending identifiable non-fossil energy power generation electricity containing carbon emission for regional power grid of p province, foreign country or local place, wherein the unit is tCO 2 。
Specifically, the terminal acquires an output electric quantity screening instruction with an identifiable environmental value; according to the output electric quantity screening instruction which can be identified by the environmental value, screening out the output electric quantity which can be identified by the environmental value of the first province, and sending the electricity generation electric quantity of the fossil fuel m and the electricity generation electric quantity of the non-fossil energy from the first province to the foreign province, the foreign country and the regional power grid where the first province is located; and then acquiring a carbon emission factor of the fossil fuel m generated electricity and carbon emission amount of the non-fossil energy generated electricity, sending the first province to an external province, an external country and a local power grid where the first province is located, inputting the first province into a pre-constructed processing model with environment value recognizable output electricity carbon emission amount, and finally obtaining the carbon emission amount of the first province sent to the external province, the external country and the local power grid where the first province is located, wherein the recognizable electricity is contained in the first province.
For example, the terminal screens out the output electric quantity identifiable from the environmental value of the first province, and the first province sends out coal-fired electric energy generation of 100MWh, natural gas electric energy generation of 200MWh, wind-power electric energy generation of 100MWh and photovoltaic electric energy generation of 100MWh to the regional power grid of the foreign province, foreign country and the local power grid, so that the total electric quantity of fossil fuel electric energy generation identifiable from the environmental value is 300MWh and the total electric quantity of non-fossil fuel electric energy generation identifiable from the environmental value is 200MWh; then obtaining the carbon emission factor of the coal-fired power generation electricity quantity with identifiable environmental value as 3kg CO 2 kWh, natural gas power generation electric quantity carbon emission factor with identifiable environmental value is 2kg CO 2 Carbon emission of electricity generation quantity of/kWh and non-fossil energy is 0t CO 2 And sending the coal-fired power generation amount of 100MWh, the natural gas power generation amount of 200MWh and the carbon emission factor of the coal-fired power generation amount with identifiable environmental value to the regional power grid of the foreign province, the foreign country and the first province, wherein the carbon emission factor is 3kg CO 2 kWh, natural gas power generation electric quantity carbon emission factor with identifiable environmental value is 2kg CO 2 Carbon emission of electricity generation quantity of/kWh and non-fossil energy is 0t CO 2 Inputting the obtained data into a pre-constructed processing model for distinguishing the carbon emission of the output electric quantity of the identifiable environmental value, and finally obtaining the first province which sends the distinguishing electric quantity with the carbon emission of 7 multiplied by 10 to the outsourced province, the foreign country and the regional power grid where the first province is located 3 t CO 2 。
In the embodiment, the fossil energy power generation electric quantity and the non-fossil energy power generation electric quantity are screened out from the output electric quantity which can be identified from the environmental value of the first province; and inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity, the first province fossil energy power generation electric quantity carbon emission factor and the non-fossil energy power generation electric quantity carbon emission into a pre-constructed processing model with identifiable output electric quantity carbon emission according to the environmental value, so as to obtain the identifiable output electric quantity carbon emission according to the environmental value of the first province. Therefore, the environment value of the first province can be accurately calculated, the carbon emission amount of output electricity can be recognized, and the province-level power grid average carbon emission factor is calculated in the next step.
In an exemplary embodiment, as shown in fig. 4, another method for processing an electrical carbon emission factor is provided, which specifically includes the following steps:
step S401, acquiring input electric quantity, output electric quantity, input electric quantity carbon emission corresponding to the input electric quantity and output electric quantity carbon emission corresponding to the output electric quantity aiming at a first province; and screening the output electric quantity which can be identified by the environmental value of the first province from the output electric quantity of the first province.
Step S402, acquiring fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity input to the first province by the second province, fossil energy power generation electric quantity and carbon emission factor, environment value unidentifiable electric quantity and power saving network average carbon dioxide emission factor of the second province; inputting the carbon emission amount of the input electric quantity of the province into a pre-constructed processing model of the carbon emission amount of the input electric quantity of the province to obtain the carbon emission amount of the input electric quantity of the second province; and carrying out fusion treatment on the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province.
Step S403, acquiring fossil energy power generation electric quantity, non-fossil energy power generation electric quantity carbon emission quantity, fossil energy power generation electric quantity carbon emission factor, environment value unidentifiable electric quantity and national grid average carbon dioxide emission factor of a first country, which are input to a first province by the first country; inputting the carbon emission amount of the first country into a pre-constructed foreign input electric quantity carbon emission amount processing model to obtain the input electric quantity carbon emission amount of the first country; and carrying out fusion processing on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country.
Step S404, acquiring fossil energy power generation electric quantity, non-fossil energy power generation electric quantity carbon emission quantity, fossil energy power generation electric quantity carbon emission factor, environment value unidentifiable electric quantity and average carbon dioxide emission factor of the regional power grid, wherein the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity carbon emission factor and the area power grid are input to a first province by the regional power grid; and inputting the carbon emission into a pre-constructed regional power grid input electric quantity carbon emission processing model to obtain the input electric quantity carbon emission of the regional power grid.
Step S405, screening out fossil energy power generation electric quantity and non-fossil energy power generation electric quantity from output electric quantity which can be identified by the environmental value of the first province; and acquiring a carbon emission factor of the fossil energy power generation electric quantity of the first province, and inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission factor of the fossil energy power generation electric quantity of the first province into a pre-constructed processing model for identifying the carbon emission of the output electric quantity with the environmental value, so as to obtain the carbon emission of the identifiable output electric quantity with the environmental value of the first province.
Step S406, acquiring the power generation coal consumption, the fossil energy power generation amount and the fossil energy carbon emission factor of the first province; inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the fossil fuel consumption of the first province; and inputting the consumption amount of fossil fuel and the carbon emission factor of the fossil energy into a carbon emission amount processing model for power generation of the fossil energy to obtain the carbon emission amount of the power generation of the fossil energy of the first province.
Step S407, acquiring the annual total power generation amount of the first province, inputting the carbon emission amount of fossil energy power generation, the annual total power generation amount, the input electric quantity, the carbon emission amount of the input electric quantity, the distinguishable output electric quantity of the environmental value and the distinguishable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and obtaining the province-level power grid average carbon emission factor of the first province.
According to the electric power carbon emission factor processing method, the input electric quantity, the output electric quantity, the input electric quantity carbon emission quantity corresponding to the input electric quantity and the output electric quantity carbon emission quantity corresponding to the output electric quantity are obtained for the first province; screening the output electricity quantity which can be identified by the environmental value of the first province from the output electricity quantity of the first province, and screening the carbon emission quantity which can be identified by the environmental value of the first province from the carbon emission quantity of the output electricity quantity of the first province; and then acquiring carbon emission and annual total generated energy of the fossil energy power generation of the first province, inputting the carbon emission of the fossil energy power generation, the annual total generated energy, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed provincial power grid average carbon emission factor processing model, and finally obtaining the provincial power grid average carbon emission factor of the first province. The method comprehensively utilizes various data such as input electric quantity, output electric quantity, input electric quantity carbon emission corresponding to the input electric quantity, output electric quantity carbon emission corresponding to the output electric quantity and the like of the power grid, further distinguishes the output electric quantity and the output electric quantity carbon emission in the data, clearly identifies environmental value information contained in power interaction, considers fairness and accuracy on one hand, and accurately calculates the average carbon emission factor of the power grid; on the other hand, the carbon emission flow information contained in the inter-provincial power interaction is calculated in a classified manner, and the carbon emission contained in the inter-provincial interaction power is accurately calculated.
In order to more clearly illustrate the method for processing the power carbon emission factor provided in the embodiments of the present application, the logic backup method is specifically described below with a specific embodiment. In an exemplary embodiment, the present application further provides another method for processing an electrical carbon emission factor, which specifically includes the following steps:
step 1: the method comprises the steps that a terminal receives an acquisition request of an average carbon emission factor of a provincial power grid of a first province, and inquires a power database according to the acquisition request to obtain input electric quantity, output electric quantity, input electric quantity carbon emission quantity corresponding to the input electric quantity and output electric quantity carbon emission quantity corresponding to the output electric quantity of the first province; and distinguishing the output electric quantity from the output electric quantity of the first province by distinguishing the environmental value of the first province.
Step 2: the method comprises the steps that a terminal receives an acquisition request of an average carbon emission factor of a provincial power grid of a first province, and inquires a power database according to the acquisition request to obtain fossil energy power generation electric quantity, non-fossil energy power generation electric quantity carbon emission quantity, fossil energy power generation electric quantity carbon emission factor, environment value unidentifiable electric quantity and an average carbon dioxide emission factor of a power-saving power grid of a second province, wherein the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity carbon emission quantity, the fossil energy power generation electric quantity carbon emission factor and the environment value unidentifiable electric quantity are input to the first province by the second province; inputting the carbon emission amount of the input electric quantity of the province into a pre-constructed processing model of the carbon emission amount of the input electric quantity of the province to obtain the carbon emission amount of the input electric quantity of the second province; and then adding the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province.
And step 3: the method comprises the steps that a terminal receives an acquisition request aiming at the provincial power grid average carbon emission factor of a first province, and queries a power database according to the acquisition request to obtain fossil energy power generation electric quantity, non-fossil energy power generation electric quantity carbon emission quantity, fossil energy power generation electric quantity carbon emission factor, environment value unidentifiable electric quantity and the national power grid average carbon dioxide emission factor of the first country, wherein the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity carbon emission quantity, the fossil energy power generation electric quantity carbon emission factor and the national power grid average carbon dioxide emission factor are input to the first province by the first country; inputting the carbon emission amount of the first country into a pre-constructed foreign input electric quantity carbon emission amount processing model to obtain the input electric quantity carbon emission amount of the first country; and then, carrying out addition operation on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country.
And 4, step 4: the method comprises the steps that a terminal receives an acquisition request of an average carbon emission factor of a provincial power grid of a first province, and inquires a power database according to the acquisition request to obtain fossil energy power generation electric quantity, non-fossil energy power generation electric quantity carbon emission quantity, fossil energy power generation electric quantity carbon emission factor, environment value unidentifiable electric quantity and an average carbon dioxide emission factor of a regional power grid, wherein the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity carbon emission quantity, the fossil energy power generation electric quantity carbon emission factor and the area power grid are input to the first province by the regional power grid; and inputting the discharge quantity into a pre-constructed regional power grid input electric quantity carbon discharge quantity processing model to obtain the input electric quantity carbon discharge quantity of the regional power grid.
And 5: the terminal acquires an output electric quantity identification command with an identifiable environmental value, and distinguishes fossil energy power generation electric quantity and non-fossil energy power generation electric quantity from the output electric quantity identifiable by the environmental value of the first province according to the output electric quantity identification command with the identifiable environmental value; and then acquiring a carbon emission factor of the fossil energy power generation electric quantity of the first province, and inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission factor of the fossil energy power generation electric quantity of the first province into a pre-constructed processing model with identifiable environmental value and carbon emission of the output electric quantity to obtain the identifiable environmental value and carbon emission of the output electric quantity of the first province.
And 6: the method comprises the steps that a terminal receives an acquisition request of an average carbon emission factor of a provincial power grid of a first province, and a power database is inquired according to the acquisition request to obtain the electricity generation coal consumption, the fossil energy electricity generation amount and the fossil energy carbon emission factor of the first province; then inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the fossil fuel consumption of the first province; and inputting the consumption amount of fossil fuel and the carbon emission factor of the fossil energy into a processing model of the carbon emission amount of the fossil energy power generation to obtain the carbon emission amount of the fossil energy power generation of the first province.
And 7: the terminal receives an acquisition request aiming at the provincial power grid average carbon emission factor of the first province, queries the power database according to the acquisition request to obtain annual total power generation amount of the first province, and inputs the carbon emission amount of fossil energy power generation, the annual total power generation amount, the input electric quantity carbon emission amount, the environment value recognizable output electric quantity and the environment value recognizable output electric quantity carbon emission amount into a pre-constructed provincial power grid average carbon emission factor processing model to obtain the provincial power grid average carbon emission factor of the first province.
According to the electric power carbon emission factor processing method, the input electric quantity, the output electric quantity, the input electric quantity carbon emission quantity corresponding to the input electric quantity and the output electric quantity carbon emission quantity corresponding to the output electric quantity are obtained for the first province; distinguishing the output electric quantity identifiable by the environmental value of the first province from the output electric quantity of the first province, and distinguishing the output electric quantity carbon emission quantity identifiable by the environmental value of the first province from the output electric quantity carbon emission quantity of the first province; and then acquiring carbon emission and annual total generated energy of the fossil energy power generation of the first province, inputting the carbon emission of the fossil energy power generation, the annual total generated energy, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed provincial power grid average carbon emission factor processing model, and finally obtaining the provincial power grid average carbon emission factor of the first province. The method comprehensively utilizes various data such as input electric quantity, output electric quantity, input electric quantity carbon emission corresponding to the input electric quantity, output electric quantity carbon emission corresponding to the output electric quantity and the like of the power grid, further distinguishes the output electric quantity and the output electric quantity carbon emission in the data, clearly identifies environmental value information contained in power interaction, considers fairness and accuracy on the one hand, and accurately calculates the average carbon emission factor of the power grid; on the other hand, the carbon emission flow information contained in the inter-provincial power interaction is calculated in a classified manner, and the carbon emission contained in the inter-provincial interaction power is accurately calculated.
It should be understood that, although the steps in the flowcharts related to the embodiments as described above are sequentially displayed as indicated by arrows, the steps are not necessarily performed sequentially as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in the flowcharts related to the embodiments described above may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the execution order of the steps or stages is not necessarily sequential, but may be rotated or alternated with other steps or at least a part of the steps or stages in other steps.
Based on the same inventive concept, the embodiment of the present application further provides an electrical carbon emission factor processing apparatus for implementing the electrical carbon emission factor processing method. The implementation scheme for solving the problem provided by the device is similar to the implementation scheme described in the above method, so specific limitations in one or more embodiments of the electrical carbon emission factor processing device provided below can be referred to the limitations on the electrical carbon emission factor processing method in the above, and are not described herein again.
In an exemplary embodiment, as shown in fig. 5, there is provided an electric carbon emission factor treatment apparatus including: parameter acquisition module, parameter screening module and parameter processing module, wherein:
the parameter obtaining module 501 is configured to obtain an input electric quantity, an output electric quantity, an input electric quantity carbon emission corresponding to the input electric quantity, and an output electric quantity carbon emission corresponding to the output electric quantity for the first province.
A parameter screening module 502, configured to screen out an identifiable output electric quantity of the environmental value of the first province from the output electric quantity of the first province, and screen out an identifiable output electric quantity of the environmental value of the first province from the output electric quantity of the first province; the output electricity quantity with the identifiable environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity.
The parameter processing module 503 is configured to obtain carbon emission from fossil energy power generation and total annual power generation amount of the first province, and input a pre-constructed provincial power grid average carbon emission factor processing model to the carbon emission from the fossil energy power generation, the total annual power generation amount, the input electric quantity, the carbon emission from the input electric quantity, the identifiable output electric quantity for the environmental value, and the carbon emission from the identifiable output electric quantity for the environmental value, so as to obtain a provincial power grid average carbon emission factor of the first province.
In an exemplary embodiment, the parameter obtaining module 501 is further configured to obtain a coal consumption of power generation, a fossil energy power generation amount, and a fossil energy carbon emission factor of the first province; inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the fossil fuel consumption of the first province; and inputting the consumption amount of fossil fuel and the carbon emission factor of the fossil energy into a carbon emission amount processing model for power generation of the fossil energy to obtain the carbon emission amount of the power generation of the fossil energy of the first province.
In an exemplary embodiment, the parameter obtaining module 501 is further configured to obtain the fossil energy power generation amount, the non-fossil energy power generation amount, the fossil energy power generation amount carbon emission factor, the environment value unrecognizable amount of electricity, and the power saving network average carbon dioxide emission factor of the second province, which are input to the first province by the second province; the electric quantity with the unidentifiable environmental value is the electric quantity generated by the power generation mode with the unidentifiable power generation type; inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission quantity input to the first province by the second province, the fossil energy power generation electric quantity and the carbon emission factor, the environment value unidentifiable electric quantity and the power saving network average carbon dioxide emission factor of the second province, and inputting a pre-constructed external province input electric quantity and carbon emission quantity processing model to obtain the input electric quantity and the carbon emission quantity of the second province; and performing fusion processing on the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province.
In an exemplary embodiment, the parameter obtaining module 501 is further configured to obtain the fossil energy electricity generation amount, the non-fossil energy electricity generation amount and the carbon emission amount, the fossil energy electricity generation amount and the carbon emission factor, the environmental value unrecognizable amount, and the national grid average carbon dioxide emission factor of the first country, which are input to the first province by the first country; inputting fossil energy power generation electric quantity, non-fossil energy power generation electric quantity and carbon emission quantity, fossil energy power generation electric quantity and carbon emission factor, unidentifiable electric quantity of environmental value and national power grid average carbon dioxide emission factor of a first country, which are input to the first country, into a pre-constructed foreign input electric quantity and carbon emission quantity processing model to obtain input electric quantity and carbon emission quantity of the first country; and carrying out fusion processing on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country.
In an exemplary embodiment, the parameter obtaining module 501 is further configured to obtain the fossil energy power generation amount, the non-fossil energy power generation amount, the carbon emission factor, the environment value unrecognizable amount, and the average carbon dioxide emission factor of the regional power grid, which are input to the first province by the regional power grid; inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity and the carbon emission quantity, the fossil energy power generation electric quantity and the carbon emission factor, the environment value unidentifiable electric quantity and the average carbon dioxide emission factor of the regional power grid, which are input to the first province by the regional power grid, into a pre-constructed regional power grid input electric quantity and carbon emission quantity processing model to obtain the input electric quantity and the carbon emission quantity of the regional power grid.
In an exemplary embodiment, the parameter filtering module 502 is further configured to filter out the fossil energy power generation capacity and the non-fossil energy power generation capacity from the identifiable output capacity of the environmental value of the first province; and inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity, the first province fossil energy power generation electric quantity carbon emission factor and the non-fossil energy power generation electric quantity carbon emission into a pre-constructed processing model with identifiable output electric quantity carbon emission according to the environmental value, so as to obtain the identifiable output electric quantity carbon emission according to the environmental value of the first province.
The respective modules in the above-mentioned electrical carbon emission factor processing apparatus may be wholly or partially implemented by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.
In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 6. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operating system and the computer program to run on the non-volatile storage medium. The database of the computer equipment is used for storing data such as input electric quantity, output electric quantity, input electric quantity carbon emission quantity, output electric quantity carbon emission quantity and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a power carbon emission factor processing method.
In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 6. The computer device includes a processor, a memory, and a communication interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operating system and the computer program to run on the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, a mobile cellular network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a power carbon emission factor processing method.
Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.
In one embodiment, a computer device is further provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the steps of the above method embodiments when executing the computer program.
In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.
In an embodiment, a computer program product is provided, comprising a computer program which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.
It should be noted that, the user information (including but not limited to user device information, user personal information, etc.) and data (including but not limited to data for analysis, stored data, presented data, etc.) referred to in the present application are information and data authorized by the user or sufficiently authorized by each party.
It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, database, or other medium used in the embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include a Read-Only Memory (ROM), a magnetic tape, a floppy disk, a flash Memory, an optical Memory, a high-density embedded nonvolatile Memory, a resistive Random Access Memory (ReRAM), a Magnetic Random Access Memory (MRAM), a Ferroelectric Random Access Memory (FRAM), a Phase Change Memory (PCM), a graphene Memory, and the like. Volatile Memory can include Random Access Memory (RAM), external cache Memory, and the like. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others. The databases referred to in various embodiments provided herein may include at least one of relational and non-relational databases. The non-relational database may include, but is not limited to, a block chain based distributed database, and the like. The processors referred to in the embodiments provided herein may be general purpose processors, central processing units, graphics processors, digital signal processors, programmable logic devices, quantum computing based data processing logic devices, etc., without limitation.
The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present application shall be subject to the appended claims.
Claims (10)
1. A method of power carbon emission factor treatment, the method comprising:
acquiring input electric quantity and output electric quantity aiming at a first province, and acquiring input electric quantity and carbon emission corresponding to the input electric quantity and output electric quantity and carbon emission corresponding to the output electric quantity;
screening the output electric quantity recognizable by the environmental value of the first province from the output electric quantity of the first province, and screening the output electric quantity recognizable by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity which can be identified by the environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity;
and acquiring carbon emission of fossil energy power generation of the first province and annual total power generation, inputting the carbon emission of the fossil energy power generation, the annual total power generation, the input electric quantity, the carbon emission of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and acquiring the province-level power grid average carbon emission factor of the first province.
2. The method of claim 1, wherein said obtaining fossil-energy-derived power-generating carbon emissions for said first province comprises:
acquiring the power generation coal consumption, the fossil energy power generation amount and the fossil energy carbon emission factor of the first province;
inputting the power generation coal consumption and the fossil energy power generation amount of the first province into a fossil fuel consumption processing model to obtain the fossil fuel consumption of the first province;
and inputting the consumption amount of the fossil fuel and the carbon emission factor of the fossil energy into a processing model of carbon emission amount of power generation of the fossil energy to obtain the carbon emission amount of power generation of the fossil energy of the first province.
3. The method of claim 1, wherein the input power comprises a provincial power input, a national power input, and a regional power grid power input; the input electric quantity carbon emission comprises the carbon emission of the input electric quantity of the province, the carbon emission of the input electric quantity of the foreign country and the carbon emission of the input electric quantity of the regional power grid; the external province input electric quantity is the sum of input electric quantities of a second province aiming at the first province, the carbon emission quantity of the external province input electric quantity is the sum of the carbon emission quantity of the input electric quantity of the second province aiming at the first province, and the second province is the province except the first province in each province; the foreign country input electric quantity is the sum of input electric quantity of a first country aiming at the first province, the carbon emission quantity of the foreign country input electric quantity is the sum of input electric quantity of the first country aiming at the first province, and the first country is other countries except the country to which the first province belongs; the input electric quantity of the regional power grid is the input electric quantity of the regional power grid in which the first province is located aiming at the first province;
the carbon emission of the input electric quantity of the province is obtained by the following method:
acquiring the fossil energy power generation electric quantity, the fossil energy power generation electric quantity carbon emission factor, the non-fossil energy power generation electric quantity carbon emission quantity, the environment value unidentifiable electric quantity and the average carbon dioxide emission factor of the power saving network of the second province, wherein the fossil energy power generation electric quantity and the carbon emission factor are input to the first province by the second province; the electric quantity which cannot be identified by the environmental value is the electric quantity generated by the power generation mode of which the power generation type cannot be identified;
inputting the fossil energy power generation electric quantity, the fossil energy power generation electric quantity carbon emission factor, the non-fossil energy power generation electric quantity carbon emission quantity, the environment value unidentifiable electric quantity and the power saving network average carbon dioxide emission factor of the second province input to the first province by the second province, and inputting a pre-constructed external province input electric quantity carbon emission quantity processing model to obtain the input electric quantity carbon emission quantity of the second province;
and carrying out fusion processing on the carbon emission of the input electric quantity of each second province to obtain the carbon emission of the input electric quantity of the external province.
4. The method of claim 3, wherein the foreign input electricity carbon emission is obtained by:
acquiring fossil energy power generation electric quantity, a fossil energy power generation electric quantity carbon emission factor, non-fossil energy power generation electric quantity carbon emission quantity, environment value unidentifiable electric quantity and a national power grid average carbon dioxide emission factor of the first country, which are input to the first province by the first country;
inputting the fossil energy power generation electric quantity, the fossil energy power generation electric quantity carbon emission factor, the non-fossil energy power generation electric quantity carbon emission quantity, the environment value unidentifiable electric quantity and the national power grid average carbon dioxide emission factor of the first country, which are input to the first province by the first country, into a pre-constructed foreign input electric quantity carbon emission quantity processing model to obtain the input electric quantity carbon emission quantity of the first country;
and carrying out fusion processing on the carbon emission of the input electric quantity of each first country to obtain the carbon emission of the input electric quantity of the foreign country.
5. The method of claim 3, wherein the regional grid input electricity carbon emission is obtained by:
acquiring fossil energy power generation electric quantity, a fossil energy power generation electric quantity carbon emission factor, non-fossil energy power generation electric quantity carbon emission quantity, environment value unidentifiable electric quantity and an average carbon dioxide emission factor of the regional power grid, wherein the fossil energy power generation electric quantity and the fossil energy power generation carbon emission factor are input to the first province by the regional power grid;
and inputting the fossil energy power generation electric quantity, the fossil energy power generation electric quantity carbon emission factor, the non-fossil energy power generation electric quantity carbon emission quantity, the unidentifiable electric quantity with the environmental value and the average carbon dioxide emission factor of the regional power grid, which are input to the first province by the regional power grid, into a pre-constructed regional power grid input electric quantity carbon emission quantity processing model to obtain the input electric quantity carbon emission quantity of the regional power grid.
6. The method according to any one of claims 1 to 5, wherein the screening out the environmentally value distinguishable output power carbon emission of the first province from the output power carbon emission of the first province comprises:
screening out fossil energy power generation electric quantity and non-fossil energy power generation electric quantity from the output electric quantity identifiable by the environmental value of the first province;
and acquiring a carbon emission factor of the fossil energy power generation electric quantity of the first province and a carbon emission quantity of the non-fossil energy power generation electric quantity, and inputting the fossil energy power generation electric quantity, the non-fossil energy power generation electric quantity, the carbon emission factor of the fossil energy power generation electric quantity of the first province and the carbon emission quantity of the non-fossil energy power generation electric quantity into a pre-constructed processing model with identifiable output electric quantity carbon emission quantity of the environmental value, so as to obtain the carbon emission quantity of the identifiable output electric quantity of the environmental value of the first province.
7. An electrical carbon emission factor treatment apparatus, the apparatus comprising:
the parameter acquisition module is used for acquiring input electric quantity and output electric quantity aiming at a first province, input electric quantity carbon emission corresponding to the input electric quantity and output electric quantity carbon emission corresponding to the output electric quantity;
the parameter screening module is used for screening the output electric quantity recognizable by the environmental value of the first province from the output electric quantity of the first province and screening the carbon emission quantity recognizable by the environmental value of the first province from the carbon emission quantity of the output electric quantity of the first province; the output electricity quantity which can be identified by the environmental value comprises fossil energy electricity generation electricity quantity and non-fossil energy electricity generation electricity quantity;
and the parameter processing module is used for acquiring the carbon emission amount of the fossil energy power generation of the first province and the annual total power generation amount, inputting the carbon emission amount of the fossil energy power generation, the annual total power generation amount, the input electric quantity, the carbon emission amount of the input electric quantity, the recognizable output electric quantity of the environmental value and the recognizable output electric quantity of the environmental value into a pre-constructed province-level power grid average carbon emission factor processing model, and obtaining the province-level power grid average carbon emission factor of the first province.
8. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor realizes the steps of the method of any one of claims 1 to 6 when executing the computer program.
9. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 6.
10. A computer program product comprising a computer program, characterized in that the computer program realizes the steps of the method of any one of claims 1 to 6 when executed by a processor.
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Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105404762A (en) * | 2015-10-19 | 2016-03-16 | 电力规划设计总院 | Consumption angle-based provincial power carbon emission assessing method |
| CN113128856A (en) * | 2021-04-13 | 2021-07-16 | 国网上海市电力公司 | Method for monitoring carbon emission amount of electricity used in near-zero carbon park |
| CN114549228A (en) * | 2021-11-12 | 2022-05-27 | 国网重庆市电力公司电力科学研究院 | Provincial power grid carbon emission online calculation method based on wide area measurement system |
| WO2022206354A1 (en) * | 2021-04-02 | 2022-10-06 | 广东工业大学 | Carbon emission measurement and calculation method for process-level, working condition-level, and project-level highway construction activities |
-
2022
- 2022-10-10 CN CN202211232503.2A patent/CN115511340A/en active Pending
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105404762A (en) * | 2015-10-19 | 2016-03-16 | 电力规划设计总院 | Consumption angle-based provincial power carbon emission assessing method |
| WO2022206354A1 (en) * | 2021-04-02 | 2022-10-06 | 广东工业大学 | Carbon emission measurement and calculation method for process-level, working condition-level, and project-level highway construction activities |
| CN113128856A (en) * | 2021-04-13 | 2021-07-16 | 国网上海市电力公司 | Method for monitoring carbon emission amount of electricity used in near-zero carbon park |
| CN114549228A (en) * | 2021-11-12 | 2022-05-27 | 国网重庆市电力公司电力科学研究院 | Provincial power grid carbon emission online calculation method based on wide area measurement system |
Non-Patent Citations (1)
| Title |
|---|
| 陈晖等: "当前省级碳排放核算体系局限性及完善建议", 中国电力企业管理, no. 25, 5 September 2022 (2022-09-05), pages 69 - 70 * |
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