CN116070878B - Method and device for matching green electricity wholesale side transaction electric quantity data - Google Patents

Abstract

The invention provides a green electricity wholesale side transaction electric quantity data matching method and device, comprising the following steps: acquiring the current states of all green electricity production equipment to obtain first green electricity equipment data; obtaining first green electricity-generating data for all green electricity production devices in each sub-period corresponding to the first demand data; generating a fusion matching table according to the first green electricity generating data and the second green electricity generating data; comparing the generated electricity quantity of the first green electricity data in the same sub-period with the required electricity quantity to obtain redundant generated electricity quantity, and comparing the generated electricity quantity of the second green electricity data in the same sub-period with the required electricity quantity to obtain missing electricity quantity; and calculating according to the redundant generated electric quantity and the missing electric quantity to obtain additional added electric quantity of the first green electricity data of all corresponding sub-time periods, and generating a fusion feedback table according to the redundant generated electric quantity, the missing electric quantity and the additional added electric quantity to send to a green electricity request side.

Description

Method and device for matching green electricity wholesale side transaction electric quantity data

Technical Field

The invention relates to a data processing technology, in particular to a green electricity wholesale side transaction electric quantity data matching method and device.

Background

Green electricity refers to the realization of converting solar energy, wind energy and the like into green electric energy by means of specific power generation equipment. Compared with the conventional thermal power generation, the green power generation has the advantages that the emission harmful to the environment is rarely generated in the power generation process, and the environment protection and sustainable development are facilitated. It is worth mentioning that green electricity realizes market trade.

In the prior art, when a power transaction is established, a green power request side often requests transaction power data for a longer period of time (for example, one year), and then needs a green power production side to deliver the transaction power data in sequence according to a plurality of time periods (for example, each month). However, since the working states of the multiple devices on the green electricity production side are different in different time periods, the power generation data in different time periods are also different, and when the electricity demand side has electricity demand, the requirement that the electricity demand data cannot be completed may occur, so that problems occur in the transaction, and the operation plans of enterprises of both parties in the transaction are affected.

Therefore, how to combine different state information of a plurality of devices at different time periods at the green electricity wholesale side to formulate corresponding power generation strategies for different green electricity request sides becomes a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides a green electricity wholesale side transaction electric quantity data matching method and device, which can combine different state information of a plurality of devices at different time periods at the green electricity wholesale side to formulate corresponding power generation strategies for different green electricity request sides.

In a first aspect of the embodiment of the present invention, a method for matching transaction electric quantity data on a green electricity wholesale side is provided, including:

after the green electricity production side receives first demand data of the green electricity request side based on a preset demand table, acquiring the current states of all green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data comprises rated power generation amount and power generation occupation time information of all the green electricity production equipment;

the green electricity production side calculates according to rated power generation amount and power generation occupied time information of all green electricity production equipment to obtain first green electricity generation data of all green electricity production equipment in each sub-time period corresponding to the first demand data;

if the electricity quantity of at least one first electricity quantity capable of generating green electricity does not meet the required electricity quantity of the first required data, the corresponding first electricity quantity capable of generating green electricity is used as second electricity quantity capable of generating green electricity, and a fusion matching table is generated according to the first electricity quantity capable of generating green electricity and the second electricity quantity capable of generating green electricity;

Comparing the generated electricity quantity of the first green electricity data in the same sub-period with the required electricity quantity to obtain redundant generated electricity quantity, and comparing the generated electricity quantity of the second green electricity data in the same sub-period with the required electricity quantity to obtain missing electricity quantity;

calculating according to the redundant generated electric quantity and the missing electric quantity to obtain additional added electric quantity of the first green electricity data of all corresponding sub-time periods, generating a fusion feedback table according to the redundant generated electric quantity, the missing electric quantity and the additional added electric quantity, and sending the fusion feedback table to a green electricity request side;

and after receiving the confirmation information of the green electricity request side, adjusting the power generation occupation time information of the corresponding green electricity production equipment according to the electric quantity in the fusion feedback table.

Optionally, in one possible implementation manner of the first aspect, after the green electricity production side receives the first demand data of the green electricity request side based on the preset demand table, the state of all current green electricity production devices is obtained to obtain first green electricity device data, where the first green electricity device data includes rated power generation amounts and power generation occupation time information of all the green electricity production devices, and the method includes:

generating first demand data by a user at a green electricity request side based on a preset demand table, wherein the preset demand table comprises at least one sub-time period and the required electric quantity corresponding to each sub-time period;

After receiving first demand data of a green electricity request side, a green electricity production side invokes a total state table corresponding to all green electricity production equipment, wherein the total state table comprises a sub-time period occupied by each green electricity production equipment, an idle sub-time period and rated electricity generation capacity;

and obtaining corresponding power generation occupation time information according to the sub-time period occupied by each green power generation device and the idle sub-time period, and generating first green power device data based on the rated power generation amount and the power generation occupation time information.

Optionally, in one possible implementation manner of the first aspect, the calculating, by the green electricity production side, according to rated power generation amounts and power generation occupation time information of all green electricity production devices, to obtain first green electricity producible data about all green electricity production devices in each sub-period corresponding to the first demand data includes:

counting green electricity production equipment which corresponds to the target sub-time period and has the same idle sub-time period to generate a target idle equipment set by taking the sub-time period included in the preset demand table as the target sub-time period;

counting the rated power generation amount corresponding to all the target idle equipment sets respectively, calculating according to the rated power generation amount to obtain the sum of the rated power generation amounts corresponding to each target idle equipment set, calculating the sum of the rated power generation amounts through the following formulas,

The sum of rated power generation amounts is calculated by the following formula,

wherein, the liquid crystal display device comprises a liquid crystal display device,

is->

Sum of rated power generation corresponding to each target idle device set, +.>

Is->

Rated power generation of the idle green power generation facility, < >>

The upper limit value of the green electricity production equipment which is idle in the target idle equipment set is set;

and counting the sum of rated power generation amounts respectively corresponding to all the target idle equipment sets to obtain first green electricity generation data.

Optionally, in one possible implementation manner of the first aspect, if the available electricity quantity of the at least one first available green electricity data does not meet the required electricity quantity of the first required data, the generating a fusion matching table according to the first available green electricity data and the second available green electricity data by using the corresponding first available green electricity data as the second available green electricity data includes:

if the sum of rated power generation amounts of the first green electricity generation data is smaller than the required power amount, judging that the power generation amount of the corresponding first green electricity generation data does not meet the required power amount of the first required data;

then the corresponding first green-capable data is used as second green-capable data;

initializing a fusion matching table, wherein the fusion matching table comprises a first filling area and a second filling area, filling all first green electricity-generating data into the first filling area, and filling all second green electricity-generating data into the second filling area.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

if the electricity quantity of all the first electricity quantity capable of generating green electricity meets the electricity quantity required by the first required data, generating a first matching table according to all the first electricity quantity capable of generating green electricity;

and sending the first matching table to a green electricity request side.

Optionally, in one possible implementation manner of the first aspect, the comparing the generated electricity quantity of the first green electricity data in the same sub-period with the required electricity quantity to obtain the redundant generated electricity quantity, comparing the generated electricity quantity of the second green electricity data in the same sub-period with the required electricity quantity to obtain the missing electricity quantity includes:

generating a multi-electric cell corresponding to each first green-capable electric data in the first filling area, and generating a power-shortage cell corresponding to each second green-capable electric data in the second filling area;

subtracting the electricity-generating quantity of the first electricity-generating data of the same sub-period from the required electricity quantity to obtain redundant electricity-generating quantity, and filling the redundant electricity-generating quantity into a plurality of electric cells;

subtracting the electricity-generating quantity and the required quantity of the second electricity-generating green data in the same sub-time period to obtain a missing electric quantity, and filling the missing electric quantity into the electricity-lacking unit cell.

Optionally, in one possible implementation manner of the first aspect, the calculating according to the surplus generated electricity quantity and the missing electricity quantity, to obtain additional added electricity quantity of the first green electricity data about all the same sub-time periods, and generating, according to the surplus generated electricity quantity, the missing electricity quantity and the additional added electricity quantity, a fusion feedback table to send the fusion feedback table to the green electricity request side includes:

calculating the redundant electricity generation quantity in all the multiple electricity cells in the first filling area to obtain a redundant electricity generation quantity sum, and calculating the missing electricity quantity in all the electricity missing cells in the second filling area to obtain a missing electricity quantity sum;

if the sum of the redundant generated electric quantity is smaller than or equal to the sum of the missing electric quantity, the value of the additionally increased electric quantity of each first green electricity generating data corresponds to the value of the redundant generated electric quantity;

calculating according to the sum of the redundant generated electric quantity and the missing electric quantity to obtain a fusion missing electric quantity;

newly establishing an electric quantity increasing cell corresponding to each multi-electric cell in the first filling area, and filling the extra electric quantity increasing cell of each first green electricity generating data into the electric quantity increasing cell;

generating a fusion power-shortage cell in the fusion matching table, filling the fusion power-shortage cell with fusion power-shortage quantity to generate a fusion feedback table, and sending the fusion feedback table to the green power request side.

Optionally, in one possible implementation manner of the first aspect, the calculating according to the surplus generated electricity quantity and the missing electricity quantity, to obtain additional added electricity quantity of the first green electricity data about all the same sub-time periods, and generating, according to the surplus generated electricity quantity, the missing electricity quantity and the additional added electricity quantity, a fusion feedback table to send the fusion feedback table to the green electricity request side includes:

if the sum of the redundant generated electric quantity is larger than the sum of the missing electric quantity, sequencing according to the time sequence of the sub-time periods corresponding to all the first green electricity capable data to obtain a first green electricity equipment data sequence;

sequentially selecting the additional electric quantity of each first green electricity-generating data according to the first green electricity equipment data sequence and adding the additional electric quantity to obtain a sequence electric quantity;

after the sequence increasing electric quantity is larger than or equal to the total of the missing electric quantity, taking the selected non-last first green electricity data as third green electricity data and taking the selected last first green electricity data as fourth green electricity data;

the value of the additional electric quantity corresponding to the third green electricity generation data corresponds to the value of the redundant electric quantity, and the additional electric quantity corresponding to the fourth green electricity generation data is obtained by calculating according to the sum of the value of the additional electric quantity and the missing electric quantity of the third green electricity generation data;

And newly establishing an electric quantity increasing cell corresponding to the multi-cell of the third green electricity generating data and the fourth green electricity generating data in the first filling area, filling each additional electric quantity increasing cell with the electric quantity increasing cell, generating a fusion feedback table and sending the fusion feedback table to the green electricity requesting side.

Optionally, in one possible implementation manner of the first aspect, the calculating, according to the sum of the value of the additional electric quantity of the third green electricity data and the missing electric quantity to obtain the additional electric quantity corresponding to the fourth green electricity data, the value of the additional electric quantity corresponding to the third green electricity data corresponds to the value of the redundant electric quantity, includes:

adding the values of the additional electric quantity according to all the third green electricity data to obtain the sum of the electric quantity to be calculated;

calculating the sum of the added electric quantity to be calculated and the difference value between the sum of the missing electric quantity to obtain the additional added electric quantity corresponding to the fourth green electricity data, calculating the additional added electric quantity of green electricity production equipment corresponding to the fourth green electricity data through the following formula,

wherein e is the additional electric quantity of the green electricity production equipment corresponding to the fourth green electricity generation data,

is- >

The missing electric quantity corresponding to the second green electricity generation data,/for the second green electricity generation data>

Upper limit value for second green electricity generation data,/-, for>

Is->

The third green electricity data corresponds to the additional electric quantity and the number of the third green electricity data is +>

Is the upper limit value of the third green electricity generation data.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

the green electricity production side acquires all fusion feedback tables in a preset time period, takes the fusion feedback table with fusion missing electric quantity as a first type fusion feedback table, and takes the fusion feedback table without fusion missing electric quantity as a second type fusion feedback table;

calculating according to a first weight after counting the fusion missing electric quantity in the first type fusion feedback table to obtain a fusion missing electric quantity coefficient, and calculating according to a second weight after counting the additional added electric quantity in the second type fusion feedback table to obtain an added electric quantity missing coefficient;

calculating the missing quantity of green electric equipment at the green electric wholesale side according to the fusion missing electric quantity coefficient and the added electric quantity missing coefficient, calculating the missing quantity of the green electric equipment by the following formula,

wherein, the liquid crystal display device comprises a liquid crystal display device,

for green electrical device deletion number, +.>

For a first normalized value, ++>

Is->

Fusion missing electric quantity in first-class fusion feedback table, < > >

For the upper limit value of the first class fusion feedback table, < >>

For the second normalized value, ++>

Is->

Extra added power in the second type fusion feedback table, < >>

For the upper limit value of the second class fusion feedback table, < >>

For the rated power generation value of the green electricity production facility, < >>

A number of weights;

and displaying the green electric equipment after the integral processing of the missing quantity.

In a second aspect of the embodiment of the present invention, there is provided a green electricity wholesale side transaction electricity quantity data matching device, including:

the system comprises an acquisition module, a power generation module and a power generation module, wherein the acquisition module is used for enabling a green electricity production side to receive first demand data of a green electricity request side based on a preset demand table, and acquiring the states of all current green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data comprises rated power generation amount and power generation occupation time information of all the green electricity production equipment;

the calculation module is used for enabling the green electricity production side to calculate according to rated power generation amount and power generation occupation time information of all green electricity production equipment to obtain first green electricity generation data of all green electricity production equipment in each sub-time period corresponding to the first demand data;

the generation module is used for generating a fusion matching table according to the first green electricity data and the second green electricity data by taking the corresponding first green electricity data as the second green electricity data if the electricity quantity of at least one first green electricity data does not meet the electricity quantity of the first demand data;

The comparison module is used for comparing the generated electricity quantity of the first green electricity data in the same sub-period with the required electricity quantity to obtain redundant generated electricity quantity, and comparing the generated electricity quantity of the second green electricity data in the same sub-period with the required electricity quantity to obtain missing electricity quantity;

the fusion feedback module is used for calculating according to the redundant generated electricity quantity and the missing electricity quantity to obtain additional added electricity quantity of the first green electricity data of all the same sub-time periods, and generating a fusion feedback list according to the redundant generated electricity quantity, the missing electricity quantity and the additional added electricity quantity and sending the fusion feedback list to a green electricity request side;

and the confirmation module is used for adjusting the power generation occupation time information of the corresponding green electricity production equipment according to the electric quantity in the fusion feedback table after receiving the confirmation information of the green electricity request side.

Advantageous effects

1. According to the scheme, the demand data of the green electricity request side is counted through the preset demand table, and the automatic formulation of the electricity generation strategy is realized by combining the obtained demand data, rated electricity generation amount of all green electricity production equipment and the electricity generation occupied time information. In addition, the scheme can also combine different data in different time periods, when the production electric quantity is not matched with the electric quantity required by the user, the automatic adjustment of the data between the time periods is realized, meanwhile, the fusion feedback table is combined to carry out data classification display for related users, and after the two users reach consensus, the state of the green electricity production equipment in the related sub-time periods can be changed according to the data in the fusion feedback table. According to the scheme, the different state information of the plurality of devices on the green electricity wholesale side in different time periods can be combined, and corresponding power generation strategies can be formulated for different green electricity request sides.

2. According to the scheme, the demand data can be analyzed to obtain data of time dimension and demand electric quantity data of each time period, then the power generation side can determine a target time period by combining the time dimension, the calculation of first green electricity equipment data is realized by combining rated power generation capacity of green electricity production equipment and power generation occupied time information, then the comparison of the first green electricity equipment data and the first demand data is combined to obtain redundant electric quantity and missing electric quantity, and then different conditions are combined to adjust different modes between the redundant electric quantity and the actual electric quantity. In addition, in the adjustment process, the third green electricity data and the fourth green electricity data can be obtained through sequencing and calculation, so that the related electric quantity data cannot be too much or too little, and a matched electricity generation strategy is formulated by fitting users.

3. According to the scheme, all fusion feedback tables in a preset time period are combined, the fusion feedback tables are classified, the fusion feedback tables with fusion missing electric quantity are used as a first fusion feedback table, the fusion feedback tables without fusion missing electric quantity are used as a second fusion feedback table, the fusion missing electric quantity coefficients and the addition electric quantity missing coefficients are calculated by combining data of different dimensions in different types of feedback tables, finally, the missing quantity of green electric equipment is obtained through comprehensive calculation, an administrator can be assisted in adjusting the green electric equipment through the missing quantity of the green electric equipment, and therefore the electric quantity requirement of a user is better completed.

Drawings

Fig. 1 is a schematic flow chart of a green electricity wholesale side transaction electric quantity data matching method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a green electricity wholesale-side transaction electricity quantity data matching device according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.

It should be understood that, in various embodiments of the present invention, the sequence number of each process does not mean that the execution sequence of each process should be determined by its functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

It should be understood that in the present invention, "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements that are expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in the present invention, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising A, B and C", "comprising A, B, C" means that all three of A, B, C comprise, "comprising A, B or C" means that one of the three comprises A, B, C, and "comprising A, B and/or C" means that any 1 or any 2 or 3 of the three comprises A, B, C.

It should be understood that in the present invention, "B corresponding to a", "a corresponding to B", or "B corresponding to a" means that B is associated with a, from which B can be determined. Determining B from a does not mean determining B from a alone, but may also determine B from a and/or other information. The matching of A and B is that the similarity of A and B is larger than or equal to a preset threshold value.

As used herein, "if" may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to detection" depending on the context.

The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.

Referring to fig. 1, a flow chart of a green electricity wholesale side transaction electric quantity data matching method provided by an embodiment of the invention is shown, and the method includes S1-S6:

s1, after a green electricity production side receives first demand data of a green electricity request side based on a preset demand table, acquiring the states of all current green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data comprises rated power generation amount and power generation occupation time information of all the green electricity production equipment.

The green electricity production side refers to an enterprise that produces green electricity by using green electricity generation equipment, and may have a plurality of green electricity generation equipment, such as wind energy electricity generation equipment, light energy electricity generation equipment, and the like. The green electricity requesting side refers to an enterprise that needs green electricity, which can request green electricity from the green electricity producing side.

The scheme is provided with a preset demand meter, and after the green electricity production side receives first demand data of the green electricity request side by using the preset demand meter, green electricity production can be carried out for the green electricity request side by matching corresponding electric energy production equipment.

Firstly, the scheme can obtain the current states of all green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data is, for example, rated power generation amount and power generation occupation time information of all green electricity production equipment.

It is understood that the rated power generation amount corresponding to different green electricity production devices in different sub-time periods may be different, and the power generation occupation time information of different devices in different sub-time periods may be different, for example, the green electricity production device a is in an occupied state, the green electricity production device B is in an idle state, and so on. The rated power generation amount of the green electricity production equipment can be an average value which is calculated based on historical data and corresponds to each month, and can be preset by a worker.

In some embodiments, S1 (after the green electricity production side receives the first demand data of the green electricity request side based on the preset demand table, the state of all the current green electricity production devices is acquired to obtain first green electricity device data, where the first green electricity device data includes rated power generation amounts and power generation occupation time information of all the green electricity production devices) includes S11-S13:

s11, a user at a green electricity request side generates first demand data based on a preset demand table, wherein the preset demand table comprises at least one sub-time period and demand electricity quantity corresponding to each sub-time period.

Firstly, a user at a green electricity request side generates first demand data according to a preset demand table, wherein the preset demand table comprises at least one sub-time period and the required electric quantity corresponding to each sub-time period.

For example, user a needs electricity 1 month, 2 months, 3 months, 4 months, 5 months, 6 months in 2025, 1 month needs 1 green license, 2 months needs 1.5 green licenses, 3 months needs 1 green license, 4 months needs 2 green licenses, 5 months needs 1 green license, 6 months needs 2 green licenses. The above illustrates, by way of example only, that the amount of power required by the user corresponding to different sub-periods may be different and is not limited to the above data. The sub-period may be 1 month.

It should be noted that the scheme can be calculated in units of months, for example, 100 devices are arranged on the green electricity production side, then 100 devices are arranged in each month of 12 months, and then a requester requests data according to months. For example, in 1 month, it is enough that 10 pieces of equipment need 2 green certificates for the requester a to generate electricity for one month, the remaining 90 pieces of equipment are idle, the requester B needs 1 green certificate in 1 month, then it can be determined that a corresponding number of pieces of equipment need 1 green certificate of the requester B to generate electricity from the remaining unoccupied 90 green certificates, and so on, and the first to first get, until 100 pieces of equipment are distributed, for example, 100 pieces of equipment on the green electricity production side can satisfy the requirement data of 10 requesters in 12 months of the present year, and then the corresponding electricity generation strategies can be distributed and configured for the 10 requesters.

And S12, after receiving the first demand data of the green electricity request side, the green electricity production side invokes a total state table corresponding to all the green electricity production equipment, wherein the total state table comprises a sub-time period occupied by each green electricity production equipment, an idle sub-time period and rated electricity generation amount.

And after the green electricity production side receives the first demand data of the green electricity request side, the green electricity production side can match corresponding equipment for producing electricity.

Firstly, the scheme can call the total state table corresponding to all green electricity production equipment, wherein the total state table comprises the sub-time period occupied by each green electricity production equipment, the idle sub-time period and the rated power generation amount.

It will be appreciated that only the device is in an idle state for a corresponding sub-period of time, can be used to generate power.

And S13, obtaining corresponding power generation occupation time information according to the occupied sub-time period and the idle sub-time period of each green power generation device, and generating first green power device data based on the rated power generation amount and the power generation occupation time information.

According to the scheme, the power generation occupation time information corresponding to the green electricity production equipment can be obtained according to the occupied sub-time period and the idle sub-time period of each green electricity production equipment, and then the rated power generation amount and the power generation occupation time information are utilized to generate first green electricity equipment data.

For example, for user a, the present solution may count green electricity production devices in an idle state for each of 1 month, 2 months, 3 months, 4 months, 5 months, and 6 months, respectively.

And S2, calculating by the green electricity production side according to rated power generation amount and power generation occupation time information of all the green electricity production equipment, and obtaining first green electricity generation data of all the green electricity production equipment in each sub-time period corresponding to the first demand data.

Meanwhile, the scheme can obtain rated power generation capacity of all green electricity production equipment, and then the rated power generation capacity and the power generation occupied time information are combined to calculate so as to obtain first green electricity generation data of all green electricity production equipment in an idle state in each sub-time period corresponding to the first demand data.

In some embodiments, S2 (the green electricity production side calculates, based on rated power generation amounts and power generation occupied time information of all green electricity production apparatuses, first green electricity generable data concerning all green electricity production apparatuses in each sub-period corresponding to the first demand data) includes S21 to S23:

s21, counting green electricity production equipment which corresponds to the target sub-time period and has the same idle sub-time period to generate a target idle equipment set by taking the sub-time period included in the preset demand table as the target sub-time period.

For example, aiming at the preset requirement table of the user A, the sub-time period of the corresponding target is 1 month, 2 months, 3 months, 4 months, 5 months and 6 months, and the scheme can obtain 6 target idle equipment sets corresponding to 1 month, 2 months, 3 months, 4 months, 5 months and 6 months.

S22, counting rated power generation amounts respectively corresponding to all the target idle equipment sets, calculating according to the rated power generation amounts to obtain the sum of the rated power generation amounts corresponding to each target idle equipment set, calculating the sum of the rated power generation amounts through the following formulas,

The sum of rated power generation amounts is calculated by the following formula,

wherein, the liquid crystal display device comprises a liquid crystal display device,

is->

Sum of rated power generation corresponding to each target idle device set, +.>

Is the firstZAnd the rated power generation amount m of each idle green electricity production device is the upper limit value of the idle green electricity production devices in the target idle device set.

For example, a target idle device set has 10 idle green electricity production devices, and the scheme can obtain the sum of rated electricity generation amounts corresponding to the target idle device set through the summation formula.

And S23, counting the sum of rated power generation amounts respectively corresponding to all the target idle equipment sets to obtain first green electricity generation data.

It can be understood that after the sum of the rated power generation amounts respectively corresponding to all the target idle device sets is obtained, the scheme can obtain the first green electricity generation data corresponding to the user A for 6 months.

And S3, if the electricity quantity of at least one first electricity quantity capable of generating green electricity does not meet the electricity quantity required by the first requirement data, the corresponding first electricity quantity capable of generating green electricity is used as second electricity quantity capable of generating green electricity, and a fusion matching table is generated according to the first electricity quantity capable of generating green electricity and the second electricity quantity capable of generating green electricity.

After the first green electricity generation data is obtained, the first green electricity generation data can be judged, and if at least one electricity generation quantity of the first green electricity generation data does not meet the required electricity quantity of the first required data, the condition that the required electricity quantity cannot be met by the generated electricity quantity for at least one month is indicated.

At this time, the scheme takes the corresponding first green electricity data as the second green electricity data, and generates a fusion matching table according to the first green electricity data and the second green electricity data.

It can be understood that after classification, the first green electricity generating data refers to data corresponding to the required electric quantity, and the second green electricity generating data refers to data corresponding to the electric quantity incapable of being met.

In some embodiments, S3 (if the available power of at least one first available green power data does not meet the required power of the first required data, the corresponding first available green power data is used as the second available green power data, and a fusion matching table is generated according to the first available green power data and the second available green power data) includes S31-S33:

and S31, if the sum of rated power generation amounts of the first green electricity capable data is smaller than the required power amount, judging that the power generation amount (corresponding to the sum of rated power generation amounts) of the corresponding first green electricity capable data does not meet the required power amount of the first required data.

In some cases, if the sum of rated power generation amounts of the first green-capable data is smaller than the required power amount, the scheme determines that the corresponding power generation amounts (corresponding to the sum of rated power generation amounts) of the first green-capable data do not satisfy the required power amount of the first required data.

For example, the user a needs 10 green certificates in total in 6 months, but the sum of rated power generation amounts of the first green electricity data is 8 green certificates, which indicates that the total power demand of the user a in the 6 months cannot be satisfied.

And S32, taking the corresponding first green-electricity-capable data as second green-electricity-capable data.

At this time, the scheme takes the corresponding first green-capable data as the second green-capable data. For example, 1.5 green certificates are required for 2 months, however, only 1 green certificate can be produced for 2 months, and at this time, the first green electricity data corresponding to 2 months is taken as the second green electricity data.

S33, initializing a fusion matching table, wherein the fusion matching table comprises a first filling area and a second filling area, all first green electricity-generating data are filled into the first filling area, and all second green electricity-generating data are filled into the second filling area.

The method can initialize a fusion matching table, wherein the fusion matching table comprises a first filling area and a second filling area, all first green electricity-generating data are filled into the first filling area, and all second green electricity-generating data are filled into the second filling area.

It can be understood that the data corresponding to the first filling area is data that can meet the user requirement, and the data corresponding to the second filling area is data that cannot meet the user requirement.

On the basis of the above embodiment, the method further comprises:

if the electricity quantity of all the first electricity quantity capable of generating green electricity meets the electricity quantity required by the first required data, generating a first matching table according to all the first electricity quantity capable of generating green electricity; and sending the first matching table to a green electricity request side.

It can be understood that if the electricity-generating amounts of all the first green electricity-generating data meet the electricity-generating amounts of the first demand data, the electricity-generating amounts of the users can be indicated to meet the electricity-generating amounts of the users, and at this time, the scheme can directly generate the first matching table according to all the first green electricity-generating data, and then send the first matching table to the green electricity request side.

And S4, comparing the generated electricity quantity of the first green electricity data in the same sub-time period with the required electricity quantity to obtain redundant generated electricity quantity, and comparing the generated electricity quantity of the second green electricity data in the same sub-time period with the required electricity quantity to obtain missing electricity quantity.

According to the scheme, the electricity quantity of the first green electricity data of the same sub-time period can be compared with the required electricity quantity to obtain redundant electricity quantity. For example, 1 green license (required power) is required for 1 month, but 2 green licenses (first green electricity data) can be produced for 1 month, and at this time, the surplus power corresponding to 1 month is 1 green license.

In addition, the scheme can also compare the electricity generation amount of the second electricity generation data of the same sub-time period with the required electricity amount to obtain the missing electricity amount. For example, 1.5 green certificates (required power) are required for 2 months, but 1 green certificate (second renewable green power data) can be produced for 2 months, and at this time, the missing power corresponding to 2 months is 0.5 green certificate.

In some embodiments, S4 (comparing the generated power of the first green-capable data with the required power in the same sub-period to obtain the redundant generated power, and comparing the generated power of the second green-capable data with the required power in the same sub-period to obtain the missing power) includes S41-S43:

s41, generating multiple electric cells corresponding to each first green electricity generating data in the first filling area, and generating electricity shortage cells corresponding to each second green electricity generating data in the second filling area.

In order to count and record data, multiple electric cells corresponding to each first green electricity capable data are generated in a first filling area, and electricity shortage cells corresponding to each second green electricity capable data are generated in a second filling area.

It can be understood that, because the data corresponding to the first filling area is the data which can meet the user requirement, the scheme only needs to construct multiple electric cells in the first filling area, and the data corresponding to the second filling area is the data which cannot meet the user requirement, so that the scheme only needs to construct the defect cells in the second filling area.

And S42, subtracting the electricity-generating quantity and the required electricity quantity of the first green electricity-generating data in the same sub-time period to obtain redundant electricity-generating quantity, and filling the redundant electricity-generating quantity into a plurality of electric cells.

For example, 1 green license (required power) is required for 1 month, but 2 green licenses (first green electricity data) can be produced for 1 month, and at this time, the surplus power corresponding to 1 month is 1 green license. Then, the scheme can fill 1 green certificate into the multi-electric cell corresponding to 1 month.

And S43, subtracting the generated electricity quantity and the required electricity quantity of the second green electricity generation data in the same sub-time period to obtain a missing electricity quantity, and filling the missing electricity quantity into the electricity missing unit cells.

For example, 1.5 green certificates (required power) are required for 2 months, but 1 green certificate (second renewable green power data) can be produced for 2 months, and at this time, the missing power corresponding to 2 months is 0.5 green certificate. Then, the scheme can fill 0.5 green certificates into the power-failure cells corresponding to 2 months.

And S5, calculating according to the redundant generated electricity quantity and the missing electricity quantity, obtaining additional added electricity quantity of the first green electricity data of all corresponding sub-time periods, generating a fusion feedback table according to the redundant generated electricity quantity, the missing electricity quantity and the additional added electricity quantity, and sending the fusion feedback table to a green electricity request side.

It should be noted that, when the electric quantity data of the corresponding sub-time period cannot be satisfied, the scheme may call the redundant generated electric quantity to compensate the electric quantity data which cannot be satisfied in the corresponding sub-time period, obtain the additional added electric quantity of the first green electricity capable of being generated in all the corresponding sub-time periods, and then generate the fusion feedback table by using the redundant generated electric quantity, the missing electric quantity and the additional added electric quantity and send the fusion feedback table to the green electricity request side.

In some embodiments, S5 (calculating according to the excess generated power and the missing power to obtain additional added power of the first green power data about all the same sub-time periods, and generating a fusion feedback table according to the excess generated power, the missing power and the additional added power to send to the green power request side) includes a 51-a 55:

and A51, calculating the redundant electricity generation quantity in all the multi-electricity cells in the first filling area to obtain a redundant electricity generation quantity sum, and calculating the missing electricity quantity in all the electricity missing cells in the second filling area to obtain a missing electricity quantity sum.

Firstly, the scheme calculates the redundant generated electricity quantity in all the multi-electricity cells in the first filling area to obtain the redundant generated electricity quantity sum, and simultaneously calculates the missing electricity quantity in all the missing electricity cells in the second filling area to obtain the missing electricity quantity sum.

And A52, if the sum of the redundant generated electric quantity is smaller than or equal to the sum of the missing electric quantity, corresponding the value of the additionally increased electric quantity of each first green electricity generating data to the value of the redundant generated electric quantity.

If the sum of the redundant generated electricity is smaller than or equal to the sum of the missing electricity, the redundant electricity cannot compensate the missing electricity, and at this moment, the scheme corresponds the value of the additionally increased electricity of each first green electricity generating data to the value of the redundant generated electricity. That is, the present solution compensates for the missing electric power by taking all the unnecessary generated electric power as the value of the additional electric power.

And A53, calculating according to the sum of the redundant generated electric quantity and the missing electric quantity to obtain the fusion missing electric quantity.

It is understood that the fusion missing power refers to power data that cannot be satisfied even when the power generation device in the all-idle state is used up.

And A54, newly establishing an electric quantity increasing cell corresponding to each multi-electric cell in the first filling area, and filling the extra electric quantity increasing cell of each first green electricity generating data into the electric quantity increasing cell.

In the scheme, an electric quantity increasing cell corresponding to each multi-electric cell is newly established in the first filling area, and then the additional electric quantity increasing cell of each first green electricity generating data is filled with the electric quantity increasing cell.

And A55, generating a fusion power shortage cell in the fusion matching table, filling the fusion power shortage cell with the fusion power shortage quantity to generate a fusion feedback table, and sending the fusion feedback table to the green power request side.

Meanwhile, the scheme can generate a fusion power shortage cell in the fusion matching table, then fill the fusion power shortage cell with the fusion power shortage quantity to generate a fusion feedback table, and send the fusion feedback table to the green power request side.

It can be understood that after the green electricity request side receives the fusion feedback table, the green electricity request side can clearly know which sub-time periods of data need to be newly added with electricity through the fusion feedback table, and the total amount of the data with the electricity is not satisfied.

In other embodiments, S5 (calculating according to the excess generated power and the missing power to obtain additional power added to the first green power data of all the same sub-time periods, generating a fusion feedback table according to the excess generated power, the missing power and the additional power added and sending the fusion feedback table to the green power request side) includes B51-B55:

and B51, if the sum of the redundant generated electric quantity is larger than the sum of the missing electric quantity, sequencing according to the time sequence of the sub-time periods corresponding to all the first green electricity capable data to obtain a first green electricity equipment data sequence.

In some cases, if the sum of the excess generated power is greater than the sum of the missing power, it is indicated that the excess power is sufficient to compensate for the missing power.

At this time, the scheme may sort the first green-electricity-generating data according to the time sequence of the sub-time period corresponding to all the first green-electricity-generating data, so as to obtain a first green-electricity-generating device data sequence. For example, 1 month, 3 months, 4 months and 5 months are sub-time periods meeting the requirements, and the corresponding data are first green electricity generation data, and the scheme can sort 1 month, 3 months, 4 months and 5 months to obtain a first green electricity equipment data sequence.

And B52, sequentially selecting the additional electric quantity of each first green electricity-generating data according to the first green electricity equipment data sequence and adding to obtain the sequence electric quantity.

For example, 1 month is more than 1 green certificate, 3 months is more than 0.5 green certificate, 4 months is more than 1 green certificate, and 5 months is more than 2 green certificates. The sequentially increased amounts of electricity are, for example, 1 green syndrome, 1.5 green syndromes, 2.5 green syndromes, and 4.5 green syndromes, respectively.

And B53, after the sequence increasing electric quantity is larger than or equal to the total of the missing electric quantity, taking the selected non-last first green electricity data as third green electricity data, and taking the selected last first green electricity data as fourth green electricity data.

For example, if the total of the missing electric quantity is 2.4 green certificates, the condition that the sequence increasing electric quantity is greater than or equal to the total of the missing electric quantity is satisfied when the sequence increasing electric quantity is 2.5 green certificates.

At this time, the scheme takes the selected non-last first green-capable data as the third green-capable data, for example, 1 month and 3 months, and takes the selected last first green-capable data as the fourth green-capable data, for example, 4 months.

And B54, corresponding the value of the additional electric quantity corresponding to the third green electricity generation data to the value of the redundant electric quantity, and calculating according to the value of the additional electric quantity of the third green electricity generation data and the total of the missing electric quantity to obtain the additional electric quantity corresponding to the fourth green electricity generation data.

Firstly, the scheme can correspond the value of the additional electric quantity corresponding to the third green electricity data to the value of the redundant electric quantity, namely 1 green card is more than 1 month, and 0.5 green card is more than 3 months.

Then, according to the scheme, the additional electric quantity (1.5 green certificates) corresponding to the fourth green electricity data can be obtained by calculating the value of the additional electric quantity (1.5 green certificates) of the third green electricity data and the total (2.4 green certificates) of the missing electric quantity.

It can be understood that the fourth green electricity generation data only needs to correspond to 0.9 green certificates, and 1 green certificate is not required to be produced.

In some embodiments, B54 (the value of the additional electric quantity corresponding to the third green electricity data corresponds to the value of the redundant electric quantity, and the additional electric quantity corresponding to the fourth green electricity data is calculated according to the sum of the value of the additional electric quantity and the missing electric quantity of the third green electricity data) includes B541-B542:

and B541, adding the values of the additional electric quantity according to all the third green electricity data to obtain the sum of the electric quantity to be calculated.

For example, the sum of 1 green license for 1 month and 0.5 green license for 3 months is 1.5 green license.

And B542, calculating the sum of the added electric quantity to be calculated and the difference value between the sum of the missing electric quantity to obtain the additional added electric quantity corresponding to the fourth green electricity data, calculating the additional added electric quantity of the green electricity production equipment corresponding to the fourth green electricity data through the following formula,

wherein e is the additional electric quantity of the green electricity production equipment corresponding to the fourth green electricity generation data,

for the missing electric quantity corresponding to the w second green electricity generating data,/for the second green electricity generating data >

Upper limit value for second green electricity generation data,/-, for>

Is->

The third green electricity data corresponds to the additional electric quantity and the number of the third green electricity data is +>

Is the upper limit value of the third green electricity generation data.

In the above-mentioned formula(s),

for example, the sum of 1 green syndrome for 1 month and 0.5 green syndrome for 3 months, described above, is +.>

For example, the above-mentioned 1 green license for 4 months may be used, and the final e may be 0.9 green license.

And B55, newly establishing an electric quantity increasing cell corresponding to the multi-cell of the third green electricity generating data and the fourth green electricity generating data in the first filling area, filling each additional electric quantity increasing cell with the electric quantity increasing cell, generating a fusion feedback table and sending the fusion feedback table to the green electricity requesting side.

According to the scheme, the power increasing unit cells corresponding to the multi-power unit cells of the third green power generating data and the fourth green power generating data are newly established in the first filling area, and then each additional power increasing unit cell is filled with each additional power increasing unit cell, so that a fusion feedback table is generated and sent to the green power request side.

It can be appreciated that by adopting the scheme, more accurate calculation can be performed when the missing electric quantity is compensated, so that the produced redundant electric quantity can not be excessive or insufficient while the electric quantity requirement of a user is met.

And S6, after receiving the confirmation information of the green electricity request side, adjusting the power generation occupation time information of the corresponding green electricity production equipment according to the electric quantity in the fusion feedback table.

It can be understood that, in the scheme, after the feedback table is sent to the green electricity request side, if the green electricity request side agrees to the electricity generation scheme in the feedback table, the confirmation information can be generated and fed back to the green electricity production side, and after the green electricity production side receives the confirmation information, the electricity generation occupation time information of the corresponding green electricity production equipment can be adjusted according to the electric quantity in the fusion feedback table.

For example, the power generation occupation time information of the corresponding green electricity production equipment (for example, 10 equipment) is adjusted to be in an occupation state in the month, so that the electricity is generated for the user A, and when the adjustment is performed, automatic and batch adjustment can be performed in combination with the equipment number of the green electricity production equipment.

In some embodiments, further comprising:

the green electricity production side acquires all fusion feedback tables in a preset time period, takes the fusion feedback table with fusion missing electric quantity as a first type fusion feedback table, and takes the fusion feedback table without fusion missing electric quantity as a second type fusion feedback table.

The preset time period may be, for example, one year, and the green electricity production side of the scheme may obtain all fusion feedback tables within one year, then use the fusion feedback table with fusion missing electric quantity as a first type fusion feedback table, and use the fusion feedback table without fusion missing electric quantity as a second type fusion feedback table.

It may be understood that the first type of fused feedback table refers to a feedback table that cannot meet the total demand of the user power, and the second type of fused feedback table refers to a feedback table that can meet the total demand of the user power.

And calculating according to the first weight after counting the fusion missing electric quantity in the first fusion feedback list to obtain a fusion missing electric quantity coefficient, and calculating according to the second weight after counting the additional added electric quantity in the second fusion feedback list to obtain an added electric quantity missing coefficient.

The method also combines the fusion missing electric quantity in the first type fusion feedback table, and calculates according to the first weight to obtain a fusion missing electric quantity coefficient, and it can be understood that the more the fusion missing electric quantity is, the larger the corresponding fusion missing electric quantity coefficient is; meanwhile, the method can count the additional electric quantity in the second type fusion feedback table and calculate the additional electric quantity according to the second weight to obtain the electric quantity loss coefficient, and it can be understood that the more the additional electric quantity is, the more the electric quantity to be compensated in the corresponding sub-time period is, and the larger the corresponding electric quantity loss coefficient is.

Calculating the missing quantity of green electric equipment at the green electric wholesale side according to the fusion missing electric quantity coefficient and the added electric quantity missing coefficient, calculating the missing quantity of the green electric equipment by the following formula,

Wherein, the liquid crystal display device comprises a liquid crystal display device,

for green electrical device deletion number, +.>

For a first normalized value, ++>

Is->

Fusion missing electric quantity in first-class fusion feedback table, < >>

For the upper limit value of the first class fusion feedback table, < >>

For the second normalized value, ++>

Is->

Extra added power in the second type fusion feedback table, < >>

For the upper limit value of the second class fusion feedback table, < >>

For the rated power generation value of the green electricity production facility, < >>

A number of weights;

in the above-mentioned formula(s),

representing the sum of fusion deleted powers,/->

Representing the fusion missing electric quantity coefficient, wherein the more the fusion missing electric quantity is, the larger the corresponding fusion missing electric quantity coefficient is; />

Representing additional charge, in%>

The more the additional electric quantity is, the larger the corresponding electric quantity loss coefficient is. />

、/>

And the number weight k may be preset by a worker, wherein +.>

Can be set to be greater than->

And the calculation duty ratio of the fusion missing electric quantity dimension is improved.

And displaying the green electric equipment after the integral processing of the missing quantity.

After the missing number of the green electric devices is obtained, the scheme can display the missing number of the green electric devices after the integral processing. After the administrator at the green electricity production side sees the displayed missing quantity of the green electricity devices, the administrator can purchase the green electricity devices with corresponding quantities to better produce electricity, and the electricity demand of the user is met to a greater extent.

Referring to fig. 2, a schematic structural diagram of a green electricity wholesale side transaction electric quantity data matching device according to an embodiment of the present invention includes:

the system comprises an acquisition module, a power generation module and a power generation module, wherein the acquisition module is used for enabling a green electricity production side to receive first demand data of a green electricity request side based on a preset demand table, and acquiring the states of all current green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data comprises rated power generation amount and power generation occupation time information of all the green electricity production equipment;

the calculation module is used for enabling the green electricity production side to calculate according to rated power generation amount and power generation occupation time information of all green electricity production equipment to obtain first green electricity generation data of all green electricity production equipment in each sub-time period corresponding to the first demand data;

the generation module is used for generating a fusion matching table according to the first green electricity data and the second green electricity data by taking the corresponding first green electricity data as the second green electricity data if the electricity quantity of at least one first green electricity data does not meet the electricity quantity of the first demand data;

the comparison module is used for comparing the generated electricity quantity of the first green electricity data in the same sub-period with the required electricity quantity to obtain redundant generated electricity quantity, and comparing the generated electricity quantity of the second green electricity data in the same sub-period with the required electricity quantity to obtain missing electricity quantity;

The fusion feedback module is used for calculating according to the redundant generated electricity quantity and the missing electricity quantity to obtain additional added electricity quantity of the first green electricity data of all the same sub-time periods, and generating a fusion feedback list according to the redundant generated electricity quantity, the missing electricity quantity and the additional added electricity quantity and sending the fusion feedback list to a green electricity request side;

and the confirmation module is used for adjusting the power generation occupation time information of the corresponding green electricity production equipment according to the electric quantity in the fusion feedback table after receiving the confirmation information of the green electricity request side.

The present invention also provides a storage medium having stored therein a computer program for implementing the methods provided by the various embodiments described above when executed by a processor.

The storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media can be any available media that can be accessed by a general purpose or special purpose computer. For example, a storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an application specific integrated circuit (Application Specific Integrated Circuits, ASIC for short). In addition, the ASIC may reside in a user device. The processor and the storage medium may reside as discrete components in a communication device. The storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tape, floppy disk, optical data storage device, etc.

The present invention also provides a program product comprising execution instructions stored in a storage medium. The at least one processor of the device may read the execution instructions from the storage medium, the execution instructions being executed by the at least one processor to cause the device to implement the methods provided by the various embodiments described above.

In the above embodiments of the terminal or the server, it should be understood that the processor may be a central processing unit (english: central Processing Unit, abbreviated as CPU), or may be other general purpose processors, digital signal processors (english: digital Signal Processor, abbreviated as DSP), application specific integrated circuits (english: application Specific Integrated Circuit, abbreviated as ASIC), or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor for execution, or in a combination of hardware and software modules in a processor for execution.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (9)

1. The green electricity wholesale side transaction electric quantity data matching method is characterized by comprising the following steps of:

after the green electricity production side receives first demand data of the green electricity request side based on a preset demand table, acquiring the current states of all green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data comprises rated power generation amount and power generation occupation time information of all the green electricity production equipment;

the green electricity production side calculates according to rated power generation amount and power generation occupied time information of all green electricity production equipment to obtain first green electricity generation data of all green electricity production equipment in each sub-time period corresponding to the first demand data;

if the electricity quantity of at least one first electricity quantity capable of generating green electricity does not meet the required electricity quantity of the first required data, the corresponding first electricity quantity capable of generating green electricity is used as second electricity quantity capable of generating green electricity, and a fusion matching table is generated according to the first electricity quantity capable of generating green electricity and the second electricity quantity capable of generating green electricity;

comparing the generated electricity quantity of the first green electricity data in the same sub-period with the required electricity quantity to obtain redundant generated electricity quantity, and comparing the generated electricity quantity of the second green electricity data in the same sub-period with the required electricity quantity to obtain missing electricity quantity;

Calculating according to the redundant generated electric quantity and the missing electric quantity to obtain additional added electric quantity of the first green electricity data of all corresponding sub-time periods, generating a fusion feedback table according to the redundant generated electric quantity, the missing electric quantity and the additional added electric quantity, and sending the fusion feedback table to a green electricity request side;

after receiving the confirmation information of the green electricity request side, adjusting the power generation occupation time information of the corresponding green electricity production equipment according to the electric quantity in the fusion feedback table;

if the electricity quantity of at least one first electricity quantity capable of generating green electricity does not meet the electricity quantity required by the first requirement data, the corresponding first electricity quantity capable of generating green electricity is used as second electricity quantity capable of generating green electricity, and a fusion matching table is generated according to the first electricity quantity capable of generating green electricity and the second electricity quantity capable of generating green electricity, and the fusion matching table comprises:

if the sum of rated power generation amounts of the first green electricity generation data is smaller than the required power amount, judging that the power generation amount of the corresponding first green electricity generation data does not meet the required power amount of the first required data;

then the corresponding first green-capable data is used as second green-capable data;

initializing a fusion matching table, wherein the fusion matching table comprises a first filling area and a second filling area, all first green electricity-generating data are filled into the first filling area, and all second green electricity-generating data are filled into the second filling area;

The comparison of the electricity quantity capable of generating green electricity of the first electricity quantity capable of generating green electricity of the same sub-period with the required electricity quantity to obtain redundant electricity quantity capable of generating green electricity, and the comparison of the electricity quantity capable of generating green electricity of the second electricity quantity capable of generating green electricity of the same sub-period with the required electricity quantity to obtain missing electricity quantity comprises the following steps:

generating a multi-electric cell corresponding to each first green-capable electric data in the first filling area, and generating a power-shortage cell corresponding to each second green-capable electric data in the second filling area;

subtracting the electricity-generating quantity of the first electricity-generating data of the same sub-period from the required electricity quantity to obtain redundant electricity-generating quantity, and filling the redundant electricity-generating quantity into a plurality of electric cells;

subtracting the electricity-generating quantity and the required quantity of the second electricity-generating green data in the same sub-time period to obtain a missing electric quantity, and filling the missing electric quantity into the electricity-lacking unit cell.

2. The green electricity wholesale side transaction electricity amount data matching method according to claim 1, wherein,

after the green electricity production side receives first demand data of the green electricity request side based on a preset demand table, acquiring the current states of all green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data comprises rated power generation amount and power generation occupation time information of all green electricity production equipment and comprises the following components:

Generating first demand data by a user at a green electricity request side based on a preset demand table, wherein the preset demand table comprises at least one sub-time period and the required electric quantity corresponding to each sub-time period;

after receiving first demand data of a green electricity request side, a green electricity production side invokes a total state table corresponding to all green electricity production equipment, wherein the total state table comprises a sub-time period occupied by each green electricity production equipment, an idle sub-time period and rated electricity generation capacity;

and obtaining corresponding power generation occupation time information according to the sub-time period occupied by each green power generation device and the idle sub-time period, and generating first green power device data based on the rated power generation amount and the power generation occupation time information.

3. The green electricity wholesale side transaction electricity amount data matching method according to claim 2, wherein,

the green electricity production side calculates according to rated power generation amount and power generation occupation time information of all green electricity production equipment to obtain first green electricity generation data of all green electricity production equipment in each sub-time period corresponding to the first demand data, and the method comprises the following steps:

counting green electricity production equipment which corresponds to the target sub-time period and has the same idle sub-time period to generate a target idle equipment set by taking the sub-time period included in the preset demand table as the target sub-time period;

Counting the rated power generation amount corresponding to all the target idle equipment sets respectively, calculating according to the rated power generation amount to obtain the sum of the rated power generation amounts corresponding to each target idle equipment set, calculating the sum of the rated power generation amounts through the following formulas,

the sum of rated power generation amounts is calculated by the following formula,

wherein->

Is->

Sum of rated power generation corresponding to each target idle device set, +.>

Is->

Rated power generation of the idle green power generation facility, < >>

The upper limit value of the green electricity production equipment which is idle in the target idle equipment set is set;

and counting the sum of rated power generation amounts respectively corresponding to all the target idle equipment sets to obtain first green electricity generation data.

4. The green-electricity wholesale-side transaction electricity quantity data matching method according to claim 3, further comprising:

if the electricity quantity of all the first electricity quantity capable of generating green electricity meets the electricity quantity required by the first required data, generating a first matching table according to all the first electricity quantity capable of generating green electricity;

and sending the first matching table to a green electricity request side.

5. The green electricity wholesale side transaction electricity amount data matching method according to claim 1, wherein,

The calculating according to the redundant generated electricity quantity and the missing electricity quantity to obtain the additional added electricity quantity of the first green electricity data of all the same sub-time periods, generating a fusion feedback table according to the redundant generated electricity quantity, the missing electricity quantity and the additional added electricity quantity, and sending the fusion feedback table to a green electricity request side, wherein the method comprises the following steps:

calculating the redundant electricity generation quantity in all the multiple electricity cells in the first filling area to obtain a redundant electricity generation quantity sum, and calculating the missing electricity quantity in all the electricity missing cells in the second filling area to obtain a missing electricity quantity sum;

if the sum of the redundant generated electric quantity is smaller than or equal to the sum of the missing electric quantity, the value of the additionally increased electric quantity of each first green electricity generating data corresponds to the value of the redundant generated electric quantity;

calculating according to the sum of the redundant generated electric quantity and the missing electric quantity to obtain a fusion missing electric quantity;

newly establishing an electric quantity increasing cell corresponding to each multi-electric cell in the first filling area, and filling the extra electric quantity increasing cell of each first green electricity generating data into the electric quantity increasing cell;

generating a fusion power-shortage cell in the fusion matching table, filling the fusion power-shortage cell with fusion power-shortage quantity to generate a fusion feedback table, and sending the fusion feedback table to the green power request side.

6. The green electricity wholesale side transaction electricity amount data matching method according to claim 5, wherein,

the calculating according to the redundant generated electricity quantity and the missing electricity quantity to obtain the additional added electricity quantity of the first green electricity data of all the same sub-time periods, generating a fusion feedback table according to the redundant generated electricity quantity, the missing electricity quantity and the additional added electricity quantity, and sending the fusion feedback table to a green electricity request side, wherein the method comprises the following steps:

if the sum of the redundant generated electric quantity is larger than the sum of the missing electric quantity, sequencing according to the time sequence of the sub-time periods corresponding to all the first green electricity capable data to obtain a first green electricity equipment data sequence;

sequentially selecting the additional electric quantity of each first green electricity-generating data according to the first green electricity equipment data sequence and adding the additional electric quantity to obtain a sequence electric quantity;

after the sequence increasing electric quantity is larger than or equal to the total of the missing electric quantity, taking the selected non-last first green electricity data as third green electricity data and taking the selected last first green electricity data as fourth green electricity data;

the value of the additional electric quantity corresponding to the third green electricity generation data corresponds to the value of the redundant electric quantity, and the additional electric quantity corresponding to the fourth green electricity generation data is obtained by calculating according to the sum of the value of the additional electric quantity and the missing electric quantity of the third green electricity generation data;

And newly establishing an electric quantity increasing cell corresponding to the multi-cell of the third green electricity generating data and the fourth green electricity generating data in the first filling area, filling each additional electric quantity increasing cell with the electric quantity increasing cell, generating a fusion feedback table and sending the fusion feedback table to the green electricity requesting side.

7. The method for matching green-side transaction power data according to claim 6, wherein,

the calculating the value of the additional electric quantity corresponding to the third green electricity data and the value of the redundant electric quantity, according to the sum of the value of the additional electric quantity and the missing electric quantity of the third green electricity data, to obtain the additional electric quantity corresponding to the fourth green electricity data comprises the following steps:

adding the values of the additional electric quantity according to all the third green electricity data to obtain the sum of the electric quantity to be calculated;

calculating the sum of the added electric quantity to be calculated and the difference value between the sum of the missing electric quantity to obtain the additional added electric quantity corresponding to the fourth green electricity data, calculating the additional added electric quantity of green electricity production equipment corresponding to the fourth green electricity data through the following formula,

wherein->

For the additional power of green electricity production equipment corresponding to the fourth green electricity data, the power is increased +. >

Is->

The missing electric quantity corresponding to the second green electricity generation data,/for the second green electricity generation data>

Is the upper limit value of the second green electricity-generating data,

is->

The third green electricity data corresponds to the additional electric quantity and the number of the third green electricity data is +>

Is the upper limit value of the third green electricity generation data.

8. The green-electricity wholesale-side transaction electricity quantity data matching method according to claim 5, further comprising:

the green electricity production side acquires all fusion feedback tables in a preset time period, takes the fusion feedback table with fusion missing electric quantity as a first type fusion feedback table, and takes the fusion feedback table without fusion missing electric quantity as a second type fusion feedback table;

calculating according to a first weight after counting the fusion missing electric quantity in the first type fusion feedback table to obtain a fusion missing electric quantity coefficient, and calculating according to a second weight after counting the additional added electric quantity in the second type fusion feedback table to obtain an added electric quantity missing coefficient;

calculating the missing quantity of green electric equipment at the green electric wholesale side according to the fusion missing electric quantity coefficient and the added electric quantity missing coefficient, calculating the missing quantity of the green electric equipment by the following formula,

wherein->

For green electrical device deletion number, +. >

For a first normalized value, ++>

Is->

Fusion missing electric quantity in first-class fusion feedback table, < >>

For the upper limit value of the first class fusion feedback table, < >>

For the second normalized value, ++>

Is->

Extra added power in the second type fusion feedback table, < >>

For the upper limit value of the second class fusion feedback table, < >>

For the rated power generation value of the green electricity production facility, < >>

A number of weights;

and displaying the green electric equipment after the integral processing of the missing quantity.

9. Green electricity wholesale side transaction electric quantity data matching device, its characterized in that includes:

the system comprises an acquisition module, a power generation module and a power generation module, wherein the acquisition module is used for enabling a green electricity production side to receive first demand data of a green electricity request side based on a preset demand table, and acquiring the states of all current green electricity production equipment to obtain first green electricity equipment data, wherein the first green electricity equipment data comprises rated power generation amount and power generation occupation time information of all the green electricity production equipment;

the calculation module is used for enabling the green electricity production side to calculate according to rated power generation amount and power generation occupation time information of all green electricity production equipment to obtain first green electricity generation data of all green electricity production equipment in each sub-time period corresponding to the first demand data;

the generation module is used for generating a fusion matching table according to the first green electricity data and the second green electricity data by taking the corresponding first green electricity data as the second green electricity data if the electricity quantity of at least one first green electricity data does not meet the electricity quantity of the first demand data;

The comparison module is used for comparing the generated electricity quantity of the first green electricity data in the same sub-period with the required electricity quantity to obtain redundant generated electricity quantity, and comparing the generated electricity quantity of the second green electricity data in the same sub-period with the required electricity quantity to obtain missing electricity quantity;

the fusion feedback module is used for calculating according to the redundant generated electricity quantity and the missing electricity quantity to obtain additional added electricity quantity of the first green electricity data of all the same sub-time periods, and generating a fusion feedback list according to the redundant generated electricity quantity, the missing electricity quantity and the additional added electricity quantity and sending the fusion feedback list to a green electricity request side;

the confirmation module is used for adjusting the power generation occupation time information of the corresponding green electricity production equipment according to the electric quantity in the fusion feedback table after receiving the confirmation information of the green electricity request side;

if the electricity quantity of at least one first electricity quantity capable of generating green electricity does not meet the electricity quantity required by the first requirement data, the corresponding first electricity quantity capable of generating green electricity is used as second electricity quantity capable of generating green electricity, and a fusion matching table is generated according to the first electricity quantity capable of generating green electricity and the second electricity quantity capable of generating green electricity, and the fusion matching table comprises:

if the sum of rated power generation amounts of the first green electricity generation data is smaller than the required power amount, judging that the power generation amount of the corresponding first green electricity generation data does not meet the required power amount of the first required data;

Then the corresponding first green-capable data is used as second green-capable data;

initializing a fusion matching table, wherein the fusion matching table comprises a first filling area and a second filling area, all first green electricity-generating data are filled into the first filling area, and all second green electricity-generating data are filled into the second filling area;

the comparison of the electricity quantity capable of generating green electricity of the first electricity quantity capable of generating green electricity of the same sub-period with the required electricity quantity to obtain redundant electricity quantity capable of generating green electricity, and the comparison of the electricity quantity capable of generating green electricity of the second electricity quantity capable of generating green electricity of the same sub-period with the required electricity quantity to obtain missing electricity quantity comprises the following steps:

generating a multi-electric cell corresponding to each first green-capable electric data in the first filling area, and generating a power-shortage cell corresponding to each second green-capable electric data in the second filling area;

subtracting the electricity-generating quantity of the first electricity-generating data of the same sub-period from the required electricity quantity to obtain redundant electricity-generating quantity, and filling the redundant electricity-generating quantity into a plurality of electric cells;

subtracting the electricity-generating quantity and the required quantity of the second electricity-generating green data in the same sub-time period to obtain a missing electric quantity, and filling the missing electric quantity into the electricity-lacking unit cell.

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