CN115641174A - Electricity charge determining method and device, storage medium and electronic equipment - Google Patents

Abstract

The present disclosure relates to an electric charge determining method, apparatus, storage medium, and electronic device, the method comprising: acquiring total electric quantity data in a preset time period, wherein the total electric quantity data comprises total photovoltaic power consumption and total power grid power consumption; determining a photovoltaic power utilization ratio and a power grid power utilization ratio according to the total photovoltaic power consumption and the total power grid power consumption; aiming at a target user, determining the photovoltaic power consumption and the power grid power consumption of the target user in the preset time period according to the total power consumption of the target user in the preset time period, the photovoltaic power consumption proportion and the power grid power consumption proportion; and determining the electricity charge of the target user in the preset time period according to the photovoltaic electricity consumption, the power grid electricity consumption and the charging rule in the preset time period. Therefore, the photovoltaic power consumption of different users in the same photovoltaic power station can be reasonably determined, and the electric charge of each user can be reasonably determined.

Description

Electricity charge determining method and device, storage medium and electronic equipment

Technical Field

The present disclosure relates to the field of photovoltaic power generation, and in particular, to a method and an apparatus for determining an electricity charge, a storage medium, and an electronic device.

Background

With the rapid development of photovoltaic power generation technology, the application range of photovoltaic power stations is wide, the number of scenes is large, the cost is low, and the price of electricity using photovoltaic electricity is favorable to a certain extent. However, the respective photovoltaic power consumption of all users of the same photovoltaic power plant is different. In the prior art, a specific determination method for photovoltaic power consumption of a user is lacked.

Disclosure of Invention

The present disclosure is directed to a method, an apparatus, a storage medium, and an electronic device for determining an electric charge, so as to solve the above technical problems.

In order to achieve the above object, in a first aspect, the present disclosure provides an electric charge determining method including:

acquiring total electric quantity data in a preset time period, wherein the total electric quantity data comprises total photovoltaic electric quantity and total power grid electric quantity;

determining a photovoltaic power utilization ratio and a power grid power utilization ratio according to the total photovoltaic power consumption and the total power grid power consumption;

aiming at a target user, determining the photovoltaic power consumption and the power grid power consumption of the target user in the preset time period according to the total power consumption of the target user in the preset time period, the photovoltaic power consumption proportion and the power grid power consumption proportion;

and determining the electric charge of the target user in the preset time period according to the photovoltaic power consumption, the power consumption of the power grid and the charging rule in the preset time period.

Optionally, the determining the photovoltaic power consumption ratio and the power grid power consumption ratio according to the total photovoltaic power consumption and the total power grid power consumption includes:

determining the sum of the total photovoltaic power consumption and the total power consumption of the power grid to obtain the total power consumption in the preset time period;

determining the quotient of the total photovoltaic power consumption and the total power consumption in the preset time period to obtain the photovoltaic power consumption ratio;

and determining the quotient of the total power consumption of the power grid and the total power consumption in the preset time period to obtain the power consumption proportion of the power grid.

Optionally, the determining, for a target user, the photovoltaic power consumption and the power consumption of the power grid of the target user in the preset time period according to the total power consumption of the target user in the preset time period, the photovoltaic power consumption proportion and the power consumption proportion of the power grid includes:

determining the product of the total power consumption of the target user in the preset time period and the photovoltaic power consumption ratio to obtain the photovoltaic power consumption;

and determining the product of the total power consumption of the target user in the preset time period and the power consumption ratio of the power grid to obtain the power consumption of the power grid.

Optionally, the determining the electricity fee of the target user in the preset time period according to the photovoltaic electricity consumption, the power grid electricity consumption and the charging rule in the preset time period includes:

determining the product of the power consumption of the power grid and a first electricity price to obtain the power grid electricity charge of the target user in the preset time period, wherein the first electricity price represents the selling unit price of the power grid electricity;

determining the product of the photovoltaic power consumption and a second electricity price to obtain the photovoltaic electricity charge of the target user in the preset time period, wherein the second electricity price represents the selling unit price of the photovoltaic electricity;

and determining the sum of the photovoltaic electric charge and the electric power grid electric charge to obtain the electric charge of the target user in the preset time period.

Optionally, the electric charge determining method further includes:

before the total electric quantity data in the preset time period are obtained, receiving an electric charge query request sent by a client of the target user, determining the last payment time of the target user, and taking the last payment time and the current time as the preset time period;

and after the electric charge of the target user in the preset time period is determined, sending an electric charge query result to a client of the target user.

Optionally, the electric charge determining method further includes:

responding to a profit query request sent by the photovoltaic power station before the total electric quantity data in the preset time period are obtained;

after each user is respectively used as a target user and the photovoltaic electric charge of the user in the preset time period is determined, the sum of the photovoltaic electric charges of each user in the preset time period is determined; and the number of the first and second electrodes,

acquiring total online electricity;

determining the net surfing benefit according to the total net surfing electric quantity;

and determining the total income of the photovoltaic power station according to the sum of the photovoltaic electric charges and the internet surfing income.

Optionally, the determining the total income of the photovoltaic power plant according to the sum of the photovoltaic electric charges and the internet surfing income includes:

acquiring equipment loss cost;

determining the sum of the photovoltaic electric charges and the internet surfing profit, and subtracting the equipment consumption fee to obtain the total profit of the photovoltaic power station;

and sending the total income to the photovoltaic power station.

In a second aspect, the present disclosure provides an electric charge determining apparatus including:

the data acquisition module is used for acquiring total electric quantity data in a preset time period, wherein the total electric quantity data comprises total photovoltaic electric quantity and total power grid electric quantity;

the power utilization ratio calculation module is used for determining the photovoltaic power utilization ratio and the power grid power utilization ratio according to the total photovoltaic power consumption and the total power grid power consumption;

the electric quantity calculation module is used for determining the photovoltaic electric quantity and the power grid electric quantity of a target user in the preset time period according to the total electric quantity of the target user in the preset time period, the photovoltaic electric quantity occupation ratio and the power grid electric quantity occupation ratio;

and the electric charge calculation module is used for determining the electric charge of the target user in the preset time period according to the photovoltaic power consumption, the power consumption of the power grid and the charging rule in the preset time period.

In a third aspect, the present disclosure provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the method of any one of the first aspect.

In a fourth aspect, the present disclosure provides an electronic device comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to implement the steps of the method of any of the first aspects.

According to the technical scheme, electric quantity data in a preset time period are obtained, the photovoltaic power utilization ratio and the power grid power utilization ratio in the total power consumption are determined according to the electric quantity data, the photovoltaic power utilization ratio and the power grid power utilization ratio of a target user in the preset time period are determined according to the photovoltaic power utilization ratio and the power grid power utilization ratio, and the power fee of the target user in the preset time period is determined according to the charging rule in the preset time period, so that the photovoltaic power utilization amounts of different users in the same photovoltaic power generation station can be reasonably determined, and the power fee of each user is reasonably determined.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

fig. 1 shows a flowchart of an electric charge determining method provided by an exemplary embodiment;

FIG. 2 shows a flowchart illustrating a detailed implementation of step S120 in an exemplary embodiment;

FIG. 3 shows a flowchart illustrating a detailed implementation of step S130 in an exemplary embodiment;

FIG. 4 shows a flowchart of a specific implementation of step S140 in an exemplary embodiment;

fig. 5 shows a further flowchart of an electricity fee determination method provided by an exemplary embodiment;

fig. 6 shows a further flowchart of an electric utility rate determining method provided by an exemplary embodiment;

FIG. 7 shows a flowchart depicting a detailed implementation of step S350 in an exemplary embodiment;

fig. 8 is a schematic diagram showing an electric charge determining apparatus provided by an exemplary embodiment;

FIG. 9 is a block diagram illustrating an electronic device in accordance with an example embodiment.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

It should be noted that all actions of acquiring signals, information or data in the present disclosure are performed under the premise of complying with the corresponding data protection regulation policy of the country of the location and obtaining the authorization given by the owner of the corresponding device.

However, for all users of photovoltaic power supplied by the same photovoltaic power station, their respective photovoltaic power consumption is often not used. In the prior art, a specific determination method for photovoltaic power consumption of a user is lacked.

In order to reasonably calculate the electricity charge of the user, the photovoltaic power consumption of the user must be reasonably calculated, and as described in the background art, a specific determination method for the photovoltaic power consumption of the user is absent in the current existing technology.

Therefore, the method for determining the electric charge comprises the steps of firstly obtaining electric quantity data in a preset time period, determining the photovoltaic power consumption ratio and the power grid power consumption ratio in the total power consumption according to the electric quantity data, then determining the photovoltaic power consumption and the power grid power consumption of a target user in the preset time period according to the photovoltaic power consumption ratio and the power grid power consumption ratio, and then determining the electric charge of the target user in the preset time period according to the charging rule in the preset time period, so that the photovoltaic power consumption of different users in the same photovoltaic power station can be reasonably determined, and further the electric charge of each user can be reasonably determined.

Fig. 1 shows a flowchart of an electric charge determining method provided by an exemplary embodiment. As shown in fig. 1, the method includes:

and S110, acquiring total electric quantity data in a preset time period, wherein the total electric quantity data comprises total photovoltaic electric quantity and total power grid electric quantity.

Specifically, as shown in step S210, the target user takes the last payment time to the current time as a preset time period, and obtains the total electric quantity data in the preset time period. The target user represents a user who inquires the electric charge, and can be any user in all users who use photovoltaic electricity supplied by the same photovoltaic power station.

It is worth noting that the acquired total electricity data may be, but is not limited to, total photovoltaic electricity usage and total grid electricity usage. The total photovoltaic power consumption and the total power grid power consumption respectively represent the total photovoltaic power consumption of all users using photovoltaic power supplied by the same photovoltaic power station and the total power grid power consumption of all the users.

Specifically, the total power grid power consumption is obtained through a gateway metering point of a power grid power station, and the total photovoltaic power consumption is obtained by subtracting the total internet power from the total photovoltaic power generation, wherein the total photovoltaic power generation is obtained through a grid-connected point of the photovoltaic power station, and the total internet power is directly obtained through a photovoltaic meter of the power grid power station.

And S120, determining the photovoltaic power utilization ratio and the power grid power utilization ratio according to the total photovoltaic power consumption and the total power grid power consumption.

The photovoltaic power consumption ratio represents a ratio of the total photovoltaic power consumption of all the users to the total power consumption in the preset time period, and the grid power consumption ratio represents a ratio of the total grid power consumption of all the users to the total power consumption in the preset time period, wherein a specific calculation method of the total power consumption is shown as step S121.

Specifically, the calculation method of the photovoltaic power utilization ratio and the grid power utilization ratio is shown in fig. 2.

And S130, aiming at the target user, determining the photovoltaic power consumption and the power grid power consumption of the target user in the preset time period according to the total power consumption of the target user in the preset time period, the photovoltaic power consumption proportion and the power grid power consumption proportion.

Specifically, the total power consumption of the target user in the preset time period may be obtained through the user power consumption query terminal.

Specifically, a specific calculation method of the photovoltaic power consumption and the grid power consumption of the target user in the preset time period is shown in fig. 3.

And S140, determining the electric charge of the target user in the preset time period according to the photovoltaic power consumption, the power consumption of the power grid and the charging rule in the preset time period.

The charging rule may be, but is not limited to, a power grid power consumption charging rule and a photovoltaic power consumption charging rule.

Specifically, a specific calculation method of the electricity fee of the target user in the preset time period is shown in fig. 4.

According to the technical scheme, electric quantity data in a preset time period are obtained, the photovoltaic power utilization ratio and the power grid power utilization ratio in the total power consumption are determined according to the electric quantity data, the photovoltaic power utilization ratio and the power grid power utilization ratio of a target user in the preset time period are determined according to the photovoltaic power utilization ratio and the power grid power utilization ratio, and the power fee of the target user in the preset time period is determined according to the charging rule in the preset time period, so that the photovoltaic power utilization amounts of different users in the same photovoltaic power generation station can be reasonably determined, and the power fee of each user is reasonably determined.

Fig. 2 shows a flowchart illustrating a detailed implementation of step S120 in an exemplary embodiment. As shown in fig. 2, the method includes:

and S121, determining the sum of the total photovoltaic power consumption and the total power consumption of the power grid, and obtaining the total power consumption in the preset time period.

The total power consumption is the total power consumption of all users using the photovoltaic power supplied by the same photovoltaic power station.

And S122, determining the quotient of the total photovoltaic power consumption and the total power consumption in the preset time period to obtain the photovoltaic power consumption ratio.

Specifically, the calculation formula of the photovoltaic power consumption ratio is as follows:

wherein, the total photovoltaic power consumption is obtained according to the step S110, and the total power consumption is obtained according to the step S121.

And S123, determining the quotient of the total power consumption of the power grid and the total power consumption in the preset time period to obtain the power consumption proportion of the power grid.

Specifically, the calculation formula of the power consumption ratio of the power grid is as follows:

the total power grid power consumption is obtained according to step S110, and the total power consumption is obtained according to step S121.

For example, the preset time period may be, for example, a complete charging unit month, assuming that the total photovoltaic power consumption obtained in the month is 5 ten thousand degrees, assuming that the total grid power consumption in the month is 10 ten thousand degrees, according to a calculation formula of the total power consumption, the total power consumption in the month may be calculated to be 15 ten thousand degrees; according to the calculation formula of the photovoltaic power utilization ratio, the photovoltaic power utilization ratio in the month can be calculated to be 1/3, and according to the calculation formula of the power grid power utilization ratio, the power grid power utilization ratio in the month can be calculated to be 2/3.

In the technical scheme, the total photovoltaic power consumption and the total power grid power consumption are obtained firstly, the total power consumption is calculated, and then the photovoltaic power utilization ratio and the power grid power utilization ratio are calculated, so that the total power utilization characteristics of all users using photovoltaic power supplied by the same photovoltaic power station can be reasonably determined.

Fig. 3 shows a flowchart illustrating a detailed implementation of step S130 in an exemplary embodiment. As shown in fig. 3, the method includes:

s131, determining the product of the total power consumption of the target user in the preset time period and the photovoltaic power consumption ratio to obtain the photovoltaic power consumption.

Specifically, before calculating the photovoltaic power consumption, the total power consumption of the target user in the preset time period needs to be obtained through electric meter query, and then the photovoltaic power consumption is calculated according to the following formula:

photovoltaic power consumption = total power consumption × photovoltaic power consumption ratio

Wherein, the photovoltaic power utilization ratio is obtained according to step S122.

And S132, determining the product of the total power consumption of the target user in the preset time period and the power consumption ratio of the power grid to obtain the power consumption of the power grid.

Specifically, for the target user, the calculation formula of the power consumption of the power grid is as follows:

electric network power consumption = total power consumption x electric network power consumption ratio

The total power consumption is obtained through the inquiry of an electric meter, and the power consumption proportion of the power grid is obtained according to the step S123.

For example, assuming that the total power consumption of the target user in the month is 300 degrees, and then the photovoltaic power consumption ratio calculated according to step S122 is 1/3, the photovoltaic power consumption of the target user in the month can be calculated to be 100 degrees; according to the power consumption ratio of the power grid calculated in step S123 being 2/3, the power consumption of the power grid in the month can be calculated to be 200 degrees.

In the technical scheme, the total power consumption of the target user in the preset time period is obtained, and then the photovoltaic power consumption and the power grid power consumption are respectively calculated according to the calculation formula of the photovoltaic power consumption and the calculation formula of the power grid power consumption, so that the specific use conditions of two types of electricity in the total power consumption of the target user in the preset time period can be accurately obtained.

Fig. 4 shows a flowchart illustrating a detailed implementation of step S140 in an exemplary embodiment. As shown in fig. 4, the method includes:

and S141, determining the product of the power consumption of the power grid and the first electricity price to obtain the power grid electricity charge of the target user in the preset time period, wherein the first electricity price represents the selling unit price of the power grid electricity.

Specifically, for the target user, the calculation formula of the power grid electricity fee is as follows:

electric power grid charge = electric power consumption x first electricity price

Wherein, the grid power consumption is obtained according to step S132. Specifically, the first electricity rates may be classified into peak electricity rates, flat electricity rates, and valley electricity rates to accurately calculate the grid electricity rates, wherein specific rates of the peak electricity rates, the flat electricity rates, and the valley electricity rates are calculated according to relevant regulations for determining the grid electricity rates.

And S142, determining the product of the photovoltaic power consumption and a second electricity price to obtain the photovoltaic electricity charge of the target user in the preset time period, wherein the second electricity price represents the selling unit price of the photovoltaic electricity.

Specifically, for the target user, the calculation formula of the photovoltaic electricity rate is as follows:

photovoltaic electricity charge = photovoltaic power consumption × second electricity price

Wherein the photovoltaic power consumption is obtained according to step S131. Specifically, the second electricity price is obtained by multiplying the first electricity price by a photovoltaic electricity discount coefficient, which is obtained according to the relevant regulation, and may be 0.95, for example.

And S143, determining the sum of the photovoltaic electric charge and the electric charge of the power grid to obtain the electric charge of the target user in the preset time period.

In the technical scheme, the power grid electricity consumption and the photovoltaic electricity consumption of the target user in the preset time period are obtained firstly, then the corresponding power grid electricity charge and the corresponding photovoltaic electricity charge are obtained according to the charging of the electricity prices corresponding to the power grid electricity consumption and the photovoltaic electricity charge respectively, and the electricity charge of the target user in the preset time period is obtained by calculating the sum of the power grid electricity charge and the photovoltaic electricity charge, so that the user can conveniently obtain the electricity charge of the photovoltaic electricity consumption and the electricity charge of the national grid electricity consumption.

Fig. 5 shows another flowchart of an electric power rate determination method provided by an exemplary embodiment. As shown in fig. 5, the method includes:

and S210, before acquiring the total electric quantity data in the preset time period, receiving an electric charge query request sent by a client of a target user, determining the last payment time of the target user, and taking the last payment time and the current time as the preset time period.

And S220, after the electric charge of the target user in the preset time period is determined, sending an electric charge inquiry result to the client of the target user.

Exemplarily, the electric charge determining method is applied to an electric charge query system, before step S110 is executed, a target client is required to send a request instruction for electric charge query, after the system receives the request instruction for electric charge query, the last time of payment and the current time of the user are queried, and a time range interval from the last time of payment to the current time is used as a preset time period; after the power rate query system performs step S140, the system transmits a power rate query result to the client of the target user, wherein the power rate result is calculated in step S143.

In the technical scheme, the target user can send the power charge query request at any time, so the scheme has better timeliness.

Fig. 6 shows another flowchart of an electric power rate determination method provided by an exemplary embodiment. As shown in fig. 6, the method includes:

and S310, responding to a profit query request sent by the photovoltaic power station before acquiring the total electric quantity data in the preset time period.

S320, after each user is respectively used as a target user and the photovoltaic electric charge of the user in the preset time period is determined, the sum of the photovoltaic electric charges of each user in the preset time period is determined; and the number of the first and second antennas is increased,

and S330, acquiring the total internet surfing electric quantity.

Specifically, the total on-grid power quantity is directly obtained through a photovoltaic meter of the power grid power station.

And S340, determining the internet surfing benefit according to the total internet surfing electric quantity.

Specifically, the calculation formula of the internet surfing benefit is as follows:

network gain = total network electricity quantity x unit price of network electricity

The unit price of the power on the internet may be 0.384 yuan, for example.

And S350, determining the total income of the photovoltaic power station according to the sum of the photovoltaic electric charges and the internet surfing income.

In particular, the specific calculation of the total yield of the photovoltaic power plant is as shown in the method steps of fig. 7.

For example, the electricity fee determining method is applied to an electricity fee querying system, for example, before step S110 is executed, a profit querying request sent by a photovoltaic power plant is received, after the system receives a profit querying request instruction, each user is respectively used as a target user, after the photovoltaic electricity fee of each target user in the preset time period is determined through step S142, the photovoltaic electricity fees of each user in the preset time period are summed to obtain a photovoltaic electricity fee sum in the preset time period, then the net surfing profit is obtained through a net surfing profit calculating formula according to the obtained total net surfing electricity quantity, and finally the total profit of the photovoltaic power plant is determined according to the photovoltaic electricity fee sum and the net surfing profit.

In the technical scheme, the power station can send the profit query request at any time, so the scheme also has better timeliness.

Fig. 7 shows a flowchart illustrating a detailed implementation of step S350 in an exemplary embodiment. As shown in fig. 7, the method includes:

s351, acquiring the equipment loss fee.

In particular, the equipment outage costs may be, but are not limited to, photovoltaic module equipment outage costs and combiner box equipment outage costs.

And S352, determining the sum of the photovoltaic electric charge and the sum of the net surfing profit, and then subtracting the equipment consumption expense to obtain the total profit of the photovoltaic power station.

Specifically, the calculation formula of the total yield of the photovoltaic power station is as follows:

the total income of the photovoltaic power station = the total sum of the photovoltaic electric charges + the income from internet-surfing-the expense of equipment consumption

The sum of the photovoltaic electric charges is obtained according to the step S320, and the internet access income is obtained according to the step S340. The equipment loss fee is obtained according to step S351.

And S353, sending the total income to the photovoltaic power station.

Illustratively, the method for determining the electric power fee is applied to an electric power fee inquiry system as an example, and after the total profit of the photovoltaic power station is calculated through step S352, the electric power fee inquiry system sends the profit to the photovoltaic power station.

In the technical scheme, the total income of the photovoltaic power station is determined through equipment loss expense, the sum of photovoltaic electric charge and internet surfing income, and the method is a reasonable calculation method for the total income of the photovoltaic power station.

Fig. 8 shows a schematic diagram of an electric charge determining apparatus provided by an exemplary embodiment. As shown in fig. 8, an electric charge determining apparatus 400 includes:

the data acquisition module 401 is configured to acquire total electricity quantity data in a preset time period, where the total electricity quantity data includes total photovoltaic electricity consumption and total power grid electricity consumption.

And the power utilization ratio calculation module 402 is configured to determine a photovoltaic power utilization ratio and a power grid power utilization ratio according to the total photovoltaic power consumption and the total power grid power consumption.

And an electric quantity calculating module 403, configured to determine, for a target user, a photovoltaic electric quantity and a power grid electric quantity of the target user in the preset time period according to the total electric quantity used by the target user in the preset time period, and the photovoltaic electric quantity duty ratio and the power grid electric quantity duty ratio.

And an electric charge calculation module 404, configured to determine an electric charge of the target user in the preset time period according to the photovoltaic power consumption, the power consumption of the power grid, and the charging rule in the preset time period.

Optionally, the electric quantity calculating module 403 is further configured to determine a sum of the total photovoltaic power consumption and the total power consumption of the power grid, obtain the total power consumption in the preset time period, determine a quotient of the total photovoltaic power consumption and the total power consumption in the preset time period, obtain a photovoltaic power consumption ratio, and determine a quotient of the total power consumption of the power grid and the total power consumption in the preset time period, and obtain a power consumption ratio of the power grid.

Optionally, the electric quantity calculating module 403 is further configured to determine a product of the total electric quantity used by the target user in the preset time period and the photovoltaic power consumption ratio, to obtain the photovoltaic power consumption, and determine a product of the total electric quantity used by the target user in the preset time period and the power consumption ratio of the power grid, to obtain the power consumption of the power grid.

Optionally, the electric charge calculating module 404 is further configured to determine a product of the grid electricity consumption and a first electricity price, to obtain a grid electricity charge of the target user in the preset time period, where the first electricity price represents a selling unit price of the grid electricity, determine a product of the photovoltaic electricity consumption and a second electricity price, to obtain a photovoltaic electricity charge of the target user in the preset time period, where the second electricity price represents the selling unit price of the photovoltaic electricity, and determine a sum of the photovoltaic electricity charge and the grid electricity charge, to obtain an electricity charge of the target user in the preset time period.

As shown in fig. 8, an electric charge determining apparatus 400 further includes:

the instruction receiving module 405 is configured to receive an electric charge query request sent by a client of a target user before acquiring total electric quantity data within a preset time period, determine a last time payment time of the target user, and use the last time payment time and a current time as the preset time period.

And the result output module 406 is configured to send the electric charge query result to the client of the target user after determining the electric charge of the target user within the preset time period.

Optionally, the instruction receiving module 405 is further configured to respond to a revenue query request sent by the photovoltaic power plant before acquiring the total power amount data within the preset time period.

Optionally, the electric charge calculating module 404 is further configured to determine a sum of the photovoltaic electric charges of each user in the preset time period after each user is respectively used as a target user and the photovoltaic electric charges of the user in the preset time period are determined.

Optionally, the data acquisition module 401 is further configured to acquire a total internet access power amount.

Optionally, the electric charge calculation module 404 is further configured to determine the net surfing profit according to the total net surfing electric quantity, and determine the total profit of the photovoltaic power plant according to the sum of the photovoltaic electric charges and the net surfing profit.

Optionally, the data collection module 401 is further configured to obtain an equipment loss fee.

Optionally, the electric charge calculating module 404 is further configured to determine a sum of the photovoltaic electric charges and a sum of the internet revenue, and then subtract the equipment consumption charge to obtain a total revenue of the photovoltaic power plant.

Optionally, the result output module 406 is further configured to send the total profit to the photovoltaic power plant.

With regard to the apparatus in the above-described embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and will not be elaborated here.

FIG. 9 is a block diagram illustrating an electronic device in accordance with an example embodiment. For example, the electronic device 500 may be provided as a server. Referring to fig. 9, the electronic device 500 comprises a processor 501, which may be one or more in number, and a memory 502 for storing computer programs executable by the processor 501. The computer program stored in memory 502 may include one or more modules that each correspond to a set of instructions. Further, the processor 501 may be configured to execute the computer program to execute the above-described electric power rate determination method.

Additionally, the electronic device 500 may also include a power component 503 and a communication component 504, the power component 503 may be configured to perform power management of the electronic device 500, and the communication component 504 may be configured to enable communication, e.g., wired or wireless communication, of the electronic device 500. In addition, the electronic device 500 may also include input/output (I/O) interfaces 505. The electronic device 500 may operate based on an operating system stored in the memory 502.

In another exemplary embodiment, there is also provided a computer-readable storage medium including program instructions which, when executed by a processor, implement the steps of the above-described electricity fee determination method. For example, the non-transitory computer readable storage medium may be the memory 502 described above including program instructions executable by the processor 501 of the electronic device 500 to perform the electricity fee determination method described above.

In another exemplary embodiment, there is also provided a computer program product comprising a computer program executable by a programmable apparatus, the computer program having code portions for performing the above-described electricity fee determination method when executed by the programmable apparatus.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A method of determining an electric charge, comprising:

acquiring total electric quantity data in a preset time period, wherein the total electric quantity data comprises total photovoltaic power consumption and total power grid power consumption;

determining a photovoltaic power utilization ratio and a power grid power utilization ratio according to the total photovoltaic power consumption and the total power grid power consumption;

aiming at a target user, determining the photovoltaic power consumption and the power grid power consumption of the target user in the preset time period according to the total power consumption of the target user in the preset time period, the photovoltaic power consumption proportion and the power grid power consumption proportion;

and determining the electricity charge of the target user in the preset time period according to the photovoltaic electricity consumption, the power grid electricity consumption and the charging rule in the preset time period.

2. The method of claim 1, wherein determining the photovoltaic power usage ratio and the grid power usage ratio according to the total photovoltaic power usage and the total grid power usage comprises:

determining the sum of the total photovoltaic power consumption and the total power consumption of the power grid to obtain the total power consumption in the preset time period;

determining the quotient of the total photovoltaic power consumption and the total power consumption in the preset time period to obtain the photovoltaic power consumption ratio;

and determining the quotient of the total power consumption of the power grid and the total power consumption in the preset time period to obtain the power consumption proportion of the power grid.

3. The method according to claim 1, wherein the determining, for a target user, the photovoltaic power consumption and the grid power consumption of the target user in the preset time period according to the total power consumption of the target user in the preset time period, and the photovoltaic power consumption proportion and the grid power consumption proportion comprises:

determining the product of the total power consumption of the target user in the preset time period and the photovoltaic power consumption ratio to obtain the photovoltaic power consumption;

and determining the product of the total power consumption of the target user in the preset time period and the power consumption ratio of the power grid to obtain the power consumption of the power grid.

4. The method according to claim 1, wherein the determining the electricity charge of the target user in the preset time period according to the photovoltaic electricity consumption, the grid electricity consumption and the charging rule in the preset time period comprises:

determining the product of the power consumption of the power grid and a first electricity price to obtain the power grid electricity charge of the target user in the preset time period, wherein the first electricity price represents the selling unit price of the power grid electricity;

determining a product of the photovoltaic power consumption and a second electricity price to obtain the photovoltaic electricity charge of the target user in the preset time period, wherein the second electricity price represents the selling unit price of the photovoltaic electricity;

and determining the sum of the photovoltaic electric charge and the electric power grid electric charge to obtain the electric charge of the target user in the preset time period.

5. The method of claim 1, further comprising:

before the total electric quantity data in the preset time period is obtained, receiving an electric charge query request sent by a client of the target user, determining the last payment time of the target user, and taking the last payment time and the current time as the preset time period;

and after the electric charge of the target user in the preset time period is determined, sending an electric charge query result to a client of the target user.

6. The method of claim 1, further comprising:

responding to a profit query request sent by the photovoltaic power station before the total electric quantity data in the preset time period are obtained;

after each user is respectively used as a target user and the photovoltaic electric charge of the user in the preset time period is determined, the sum of the photovoltaic electric charges of each user in the preset time period is determined; and the number of the first and second antennas is increased,

acquiring total online electric quantity;

determining the net surfing benefit according to the total net surfing electric quantity;

and determining the total income of the photovoltaic power station according to the sum of the photovoltaic electric charges and the internet surfing income.

7. The method of claim 6, wherein the determining the total revenue of the photovoltaic power plant according to the sum of the photovoltaic electricity charges and the internet surfing revenue comprises:

acquiring equipment loss cost;

determining the sum of the photovoltaic electric charges and the internet surfing profit, and subtracting the equipment consumption fee to obtain the total profit of the photovoltaic power station;

and sending the total income to the photovoltaic power station.

8. An electricity fee determination device, characterized by comprising:

the data acquisition module is used for acquiring total electric quantity data in a preset time period, wherein the total electric quantity data comprises total photovoltaic electric quantity and total power grid electric quantity;

the power utilization ratio calculation module is used for determining the photovoltaic power utilization ratio and the power grid power utilization ratio according to the total photovoltaic power consumption and the total power grid power consumption;

the electric quantity calculation module is used for determining the photovoltaic electric quantity and the power grid electric quantity of a target user in the preset time period according to the total electric quantity of the target user in the preset time period, the photovoltaic electric quantity occupation ratio and the power grid electric quantity occupation ratio;

and the electric charge calculation module is used for determining the electric charge of the target user in the preset time period according to the photovoltaic power consumption, the power consumption of the power grid and the charging rule in the preset time period.

9. A non-transitory computer readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

10. An electronic device, comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to carry out the steps of the method of any one of claims 1 to 7.

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