CN111754129A - Calculation power management system based on distributed new energy power generation - Google Patents

Abstract

The invention belongs to the technical field of electric power and computing power management, and discloses a computing power management system based on distributed new energy power generation, which mainly comprises: the distributed new energy power generation module is used for providing electric energy based on distributed new energy power generation equipment; the intelligent force calculating equipment module comprises intelligent force calculating equipment, information receiving equipment and force calculating supply information management equipment; the information receiving equipment acquires electric energy which can be provided by the distributed new energy power generation module; the computing power supply information management equipment predicts computing power supply information of the intelligent computing power equipment on the basis of the acquired electric energy which can be provided; the computing power demand terminal module comprises computing power demand terminal equipment and computing power demand acquisition equipment; the computing power demand acquisition equipment is used for acquiring computing power demand information of the computing power demand terminal equipment; the computing power management and transaction platform comprises an information acquisition module and a transaction matching module; in conclusion, the low-cost calculation bidirectional transaction is effectively realized.

Description

Calculation power management system based on distributed new energy power generation

Technical Field

The invention belongs to the technical field of electric power and computing power management, and particularly relates to a computing power management system based on distributed new energy power generation.

Background

Computing power, i.e., computing power of various devices, is widely present in various hardware devices related to production and life. The development of computing power provides a solid technical support for the development of big data, intelligent manufacturing and the like, and becomes a new productivity of an intelligent world. However, the computing equipment consumes a large amount of electric energy during the period of providing computing power, resulting in resource waste and environmental pollution.

With the development of the distributed new energy power generation industry in recent years, economic and environment-friendly green electric power is provided for production and life of China. However, with the increase of installed capacity, the new energy power consumption is difficult, and on one hand, the waste of the new energy power is caused by the problems of wind abandonment, light abandonment and the like; on the other hand, a large amount of new energy is used for grid-connected power generation, so that the power system is intermittent and uncertain in power output, and the safe and stable operation of a power grid is influenced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and particularly provides a calculation management system based on distributed new energy power generation.

In order to achieve the purpose, the invention provides the following technical scheme: a computing power management system based on distributed new energy power generation mainly comprises:

the distributed new energy power generation module is used for providing electric energy based on new energy power generation;

the intelligent force calculating equipment module comprises intelligent force calculating equipment, information receiving equipment and force calculating supply information management equipment; the information receiving equipment acquires electric energy which can be provided by the distributed new energy power generation module; the computing power supply information management device predicts computing power supply information of the intelligent computing power device based on the acquired electric energy which can be supplied;

the computing power demand terminal module comprises computing power demand terminal equipment and computing power demand acquisition equipment; the computing power demand acquisition equipment is used for acquiring computing power demand information of the computing power demand terminal equipment;

the computing power management and transaction platform comprises an information acquisition module and a transaction matching module;

wherein:

the information acquisition module is used for acquiring computing power supply information from the intelligent computing power equipment module, acquiring computing power demand information from the computing power demand terminal module, and uploading the computing power supply information and the computing power demand information to the transaction matching module as required;

the transaction matching module is used for dividing the calculation power matching transaction into n time slots, executing an achieved transaction agreement in the first time slot, simultaneously uploading calculation power supply and demand information of the second time slot in the first time slot, and matching the calculation power supply and demand information to achieve a transaction agreement of the second time slot;

the transaction protocol at least comprises a transaction price protocol and a computing power transaction load protocol; and the transaction price agreement has a higher priority than the effort transaction load agreement.

Optionally, the distributed new energy power generation module includes a power supply device, a power prediction device, and an information transmission device; wherein: the power supply equipment at least adopts one of distributed photovoltaic power generation equipment and distributed wind power generation equipment; the power prediction device is used for predicting the electric energy which can be provided by the power supply device; the information transmission device is used for transmitting the information predicted by the power prediction device to the intelligent computing force device module.

Optionally, the distributed new energy power generation module further includes an inverter, a controller and a power transmission line; wherein: the inverter is used for converting the direct current generated by the power supply equipment into alternating current usable by the intelligent force computing equipment; the controller controls power scheduling according to the electric energy which can be provided by the power supply equipment; the power transmission line is connected with the distributed new energy power generation module and the intelligent force calculation equipment module, and transmits the electric energy generated by the distributed new energy power generation module to the intelligent force calculation equipment module.

Optionally, when the power prediction device predicts the electric power that can be provided by the power supply device, the prediction is performed according to at least one of temperature, wind power, light intensity and historical data of the power supply device.

Specifically, the intelligent computing equipment at least comprises one of a computer, a server and a smart phone.

Optionally, the transaction price agreement is: and when the minimum supply price of the intelligent force calculating equipment module is not higher than the maximum demand price of the force calculating demand terminal module, taking the average value of the minimum supply price and the maximum demand price as a transaction price.

Optionally, the computing power transaction load protocol is:

when the computing power supplied by the intelligent computing power equipment is lower than the computing power required by the computing power demand terminal equipment, the computing power supplied by the intelligent computing power equipment is used as a transaction load, and zero resetting of the computing power supplied by the intelligent computing power equipment is executed after the transaction is completed;

and when the computing force supplied by the intelligent computing force equipment is higher than the computing force required by the computing force demand terminal equipment, the computing force required by the computing force demand terminal equipment is taken as a transaction load, and the zeroing of the computing force required by the computing force demand terminal equipment is executed after the transaction is completed.

Optionally, the computing power management and transaction platform further includes a balance scheduling module, configured to execute computing power balance scheduling when the intelligent computing power device module supplies too much computing power or the computing power demand terminal module demands too much computing power.

Compared with the prior art, the invention has the following beneficial effects:

in the invention, the distribution and transaction of the power demand and the power supply of the intelligent power calculation equipment module are bidirectionally executed based on the power management and transaction platform, wherein the power demand is preferentially provided by the distributed new energy power generation module, so that the intelligent power calculation equipment module is ensured to firstly consume the new energy power during operation, thereby effectively promoting the consumption of new energy, reducing the operation and management cost and promoting the energy conservation and consumption reduction.

When bidirectional distribution and transaction are executed, free transaction is carried out in a continuous bidirectional auction mode, and power and calculation power are distributed in a prediction mode in the transaction process, so that the intermittence and uncertainty of power output of a power system are effectively reduced.

In addition, the bidirectional distribution and transaction at the supply and demand ends effectively realize the distributed management at the supply and demand ends, thereby promoting the point-to-point interconnection of the supply party and the demand party and improving the initiative of active participation of the supply party and the demand party; meanwhile, the management and the transaction of the whole power and the calculation power are more transparent, public and fair.

Drawings

Fig. 1 is a structural diagram of a force calculation management system based on distributed new energy power generation provided by the present invention;

FIG. 2 is a flow chart of calculation power trade matching when the calculation power management system based on distributed new energy power generation provided by the invention is executed;

fig. 3 is a flow chart illustrating the execution of a transaction in the second time slot.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In an embodiment of the present invention, a computing power management system based on distributed new energy power generation is disclosed, and a structure of the system is specifically shown in fig. 1, and mainly includes:

the distributed new energy power generation module is used for providing electric energy based on new energy power generation;

specifically, in this embodiment, the distributed new energy power generation module at least includes a power supply device, a power prediction device, an information transmission device, an inverter, a controller, and a power transmission line; wherein:

the power supply equipment at least adopts one of distributed photovoltaic power generation equipment and distributed wind power generation equipment; therefore, the effective application of new energy sources such as solar energy, wind energy and the like to power generation is effectively realized.

The power prediction device is used for predicting the electric energy which can be provided by the power supply device; specifically, when the power prediction device predicts the electric power that can be supplied by the power supply device, the prediction is performed according to at least one of temperature, wind power, light intensity and historical data of the power supply device, so that the accuracy in electric energy prediction is ensured.

The information transmission device is used for transmitting the information (the available electric energy) predicted by the power prediction device to the intelligent power computing device module.

The distributed new energy power generation module is used for providing a data base for the computing power prediction of the intelligent computing power equipment module, and when the information prediction and transmission are performed, the distributed new energy power generation module does not supply power to the intelligent computing power equipment, namely the intelligent computing power equipment does not generate corresponding computing power.

After the prediction and transmission are completed, the power supply equipment supplies power to the intelligent computing power equipment:

the inverter is used for converting direct current generated by the power supply equipment into alternating current usable by the intelligent force computing equipment.

The controller controls power scheduling according to the power available from the power supply device.

The power transmission line is connected with the distributed new energy power generation module and the intelligent force calculation equipment module, and transmits the electric energy generated by the distributed new energy power generation module to the intelligent force calculation equipment module.

The intelligent force calculating equipment module comprises intelligent force calculating equipment, information receiving equipment and force calculating supply information management equipment; the information receiving equipment acquires electric energy which can be provided by the distributed new energy power generation module; the calculation power supply information management equipment predicts calculation power supply information of the intelligent calculation power equipment on the basis of the acquired electric energy which can be provided;

here, the electric energy acquired by the information receiving apparatus is the electric energy predicted by the power prediction apparatus, thereby further predicting the calculation power that can be supplied based on the predicted electric energy.

And after the power supply equipment formally supplies power to the intelligent force computing equipment through the power transmission line, the intelligent force computing equipment formally generates computing force.

Specifically, in this embodiment, the intelligent computing device includes at least one of a computer, a server, and a smart phone.

The computing power demand terminal module comprises computing power demand terminal equipment and computing power demand acquisition equipment; the computing power demand acquisition equipment is used for acquiring computing power demand information of the computing power demand terminal equipment;

specifically, in the present embodiment, the computing power demand terminal device is a subject of computing power purchase and use, and includes all kinds of facilities and devices that require computing power related to production and life, such as an automatic driving automobile, a face recognition device, a digital money bank, and the like.

The computing power management and transaction platform comprises an information acquisition module and a transaction matching module;

wherein:

the information acquisition module is used for acquiring the calculation power supply information from the intelligent calculation power equipment module, acquiring the calculation power demand information from the calculation power demand terminal module, and uploading the calculation power supply information and the calculation power demand information to the transaction matching module as required;

the transaction matching module is used for dividing the calculation power matching transaction into n time slots, executing an achieved transaction agreement in the first time slot, simultaneously uploading calculation power supply and demand information of the second time slot in the first time slot, and matching the calculation power supply and demand information to achieve a transaction agreement of the second time slot;

and the balance scheduling module is used for executing calculation force balance scheduling when the intelligent calculation force equipment module supplies too much calculation force or the calculation force demand terminal module demands too much calculation force.

The trading agreement at least comprises a trading price agreement and a computing power trading load agreement.

Specifically, in the present embodiment, regarding the transaction price agreement:

and when the minimum supply price of the intelligent force calculating equipment module is not higher than the maximum demand price of the force calculating demand terminal module, taking the average value of the minimum supply price and the maximum demand price as the transaction price.

Specifically, in the present embodiment, regarding the effort transaction load agreement:

when the computing power supplied by the intelligent computing power equipment is lower than the computing power required by the computing power demand terminal equipment, the computing power supplied by the intelligent computing power equipment is taken as a transaction load, and zero resetting of the computing power supplied by the intelligent computing power equipment is executed after the transaction is completed;

when the computing force supplied by the intelligent computing force equipment is higher than the computing force required by the computing force demand terminal equipment, the computing force required by the computing force demand terminal equipment is taken as a transaction load, and zero resetting of the computing force required by the computing force demand terminal equipment is executed after the transaction is completed.

In summary, under the execution of the transaction matching module, the overall calculation transaction process is as follows:

s1, dividing the calculation power matching transaction into n time slots, executing an achieved transaction protocol in a first time slot, simultaneously uploading calculation power supply and demand information of a second time slot in the first time slot, matching the calculation power supply and demand information to achieve a transaction protocol of the second time slot, entering the second time slot after completing the transaction in the first time slot, and executing the transaction protocol achieved in the first time slot;

in the following, the transaction process is explained in detail by taking the transaction in the second time slot as an example:

s2, determining a transaction price (according to a transaction price protocol):

sequencing the plurality of intelligent computing power devices according to the computing power supply price, and selecting the intelligent computing power device A with the lowest price from the sequencing, wherein the corresponding computing power supply price is Ai;

sequencing the plurality of computing power demand terminal devices according to the computing power demand price, and selecting a computing power demand terminal device B with the highest price from the sequencing, wherein the corresponding computing power demand price is Bj;

and if Ai is less than or equal to Bj, the intelligent force computing equipment A and the force computing demand terminal equipment B are matched for trading, and the final trading price P is calculated to be (Ai + Bj)/2.

Otherwise, if Ai > Bj, step S1 is executed again, i.e. the third time slot is entered, and the calculation power supply and demand information is obtained again.

S3, determining the calculation capacity trading load (according to a calculation capacity trading load protocol):

aiming at the intelligent computing power equipment A and the computing power demand terminal equipment B which can match the transaction, the method comprises the following steps: the intelligent computing power equipment A predicts the available computing power As according to the electric energy provided by the corresponding distributed new energy power generation module; the calculation power required by the calculation power demand terminal equipment B is Bs;

if As is greater than Bs, the intelligent computing power equipment A and the computing power demand terminal equipment B are made to trade according to the computing power load As Bs, the computing power demand terminal equipment B is deleted from the corresponding sequence after the trade, and the step S2 is executed again after the deletion; when the intelligent computing power equipment A is executed again, the computing power provided by the intelligent computing power equipment A is As-Bs;

if As is less than Bs, the intelligent force computing equipment A and the force computing demand terminal equipment B are enabled to trade As As according to the force computing load, the intelligent force computing equipment A is deleted from the corresponding sequence after trading, and the step S2 is executed again after deletion; when the calculation is executed again, the calculation power required by the calculation power demand terminal device B is Bs-As;

if As is equal to Bs, the intelligent computing power device a and the computing power demand terminal device B are caused to trade according to the computing power load As Bs, and after the trade, the intelligent computing power device a and the computing power demand terminal device B are deleted from the corresponding sequence, and the step S2 is executed again after the deletion;

and S4, repeatedly executing the step S2 and the step S3 for multiple times until the computing power provided by the intelligent computing power equipment is completely distributed or the computing power required by the computing power demand terminal equipment is met, and executing computing power balance scheduling. Specifically, the method comprises the following steps:

if the computing power provided by the intelligent computing power equipment is completely distributed, the computing power of the remaining computing power demand terminal equipment which does not obtain the computing power can be provided by a centralized computing power center such as a big data center and a cloud computing center;

if the computing power required by the plurality of computing power demand terminal devices is met, the computing power left in the plurality of intelligent computing power devices can be sold to a computing power receiver outside the whole computing power management system.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions, e.g.: the above description about the first slot and the second slot refers to the previous slot and the next slot of the adjacent two slots. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A computing power management system based on distributed new energy power generation is characterized by mainly comprising:

the distributed new energy power generation module is used for providing electric energy based on distributed new energy power generation equipment;

the intelligent force calculating equipment module comprises intelligent force calculating equipment, information receiving equipment and force calculating supply information management equipment; the information receiving equipment acquires electric energy which can be provided by the distributed new energy power generation module; the computing power supply information management device predicts computing power supply information of the intelligent computing power device based on the acquired electric energy which can be supplied;

the computing power demand terminal module comprises computing power demand terminal equipment and computing power demand acquisition equipment; the computing power demand acquisition equipment is used for acquiring computing power demand information of the computing power demand terminal equipment;

the computing power management and transaction platform comprises an information acquisition module and a transaction matching module;

wherein:

the information acquisition module is used for acquiring computing power supply information from the intelligent computing power equipment module, acquiring computing power demand information from the computing power demand terminal module, and uploading the computing power supply information and the computing power demand information to the transaction matching module as required;

the transaction matching module is used for dividing the calculation power matching transaction into n time slots, executing an achieved transaction agreement in the first time slot, simultaneously uploading calculation power supply and demand information of the second time slot in the first time slot, and matching the calculation power supply and demand information to achieve a transaction agreement of the second time slot;

the transaction protocol at least comprises a power transaction price protocol and a power transaction load protocol, and the priority of the power transaction price protocol is higher than that of the power transaction load protocol.

2. The system for managing computing power based on distributed new energy power generation according to claim 1, wherein the distributed new energy power generation module comprises a power supply device, a power prediction device and an information transmission device, wherein:

the power supply equipment at least adopts one of distributed photovoltaic power generation equipment and distributed wind power generation equipment;

the power prediction device is used for predicting the electric energy which can be provided by the power supply device;

the information transmission device is used for transmitting the information predicted by the power prediction device to the intelligent computing force device module.

3. The system for managing computing power based on distributed new energy power generation according to claim 2, wherein the distributed new energy power generation module further comprises:

the inverter is used for converting the direct current generated by the power supply equipment into alternating current usable by the intelligent force computing equipment;

the controller is used for controlling power scheduling according to the electric energy which can be provided by the power supply equipment;

and the power transmission line is connected with the distributed new energy power generation module and the intelligent force calculation equipment module and is used for transmitting the electric energy generated by the distributed new energy power generation module to the intelligent force calculation equipment module.

4. The system for managing computing power based on distributed new energy power generation according to claim 2 or 3, characterized in that: when the power prediction device predicts the electric power provided by the power supply device, the prediction is carried out according to at least one of temperature, wind power, illumination intensity and historical data of the power supply device.

5. The system for managing computing power based on distributed new energy power generation according to claim 1, characterized in that: the intelligent computing equipment at least comprises one of a computer, a server and a smart phone.

6. The system for managing computing power based on distributed new energy power generation according to claim 1, wherein the transaction price agreement is:

and when the minimum supply price of the intelligent force calculating equipment module is not higher than the maximum demand price of the force calculating demand terminal module, taking the average value of the minimum supply price and the maximum demand price as a transaction price.

7. The system for managing computing power based on distributed new energy power generation according to claim 1, characterized in that: the computing power transaction load protocol is as follows:

and when the computing power supplied by the intelligent computing power equipment is lower than the computing power required by the computing power demand terminal equipment, the computing power supplied by the intelligent computing power equipment is used as a transaction load, and the computing power supplied by the intelligent computing power equipment is reset to zero after the transaction is finished.

8. The system for managing computing power based on distributed new energy power generation according to claim 1 or 7, characterized in that: the computing power transaction load protocol is as follows:

and when the computing force supplied by the intelligent computing force equipment is higher than the computing force required by the computing force demand terminal equipment, the computing force required by the computing force demand terminal equipment is taken as a transaction load, and the zeroing of the computing force required by the computing force demand terminal equipment is executed after the transaction is completed.

9. The computing power management system based on distributed new energy power generation of claim 1, wherein the computing power management and trading platform further comprises a balance scheduling module for performing computing power balance scheduling when the intelligent computing power equipment module supplies too much computing power or the computing power demand terminal module demands too much computing power.

Images