CN113095856B - Electric power market transaction method and platform - Google Patents

Abstract

The invention discloses an electric power market trading method and a platform, wherein a trading server of the platform authenticates first identity authentication information carried in a received trading command, and sends the trading command to a second electricity selling terminal after the authentication is passed; and the second electricity selling terminal responds to the received transaction success instruction and sends a transaction confirmation instruction to the transaction server. Because the transaction server needs to verify the first identity authentication information and the second identity authentication information provided by the first electricity selling terminal and the second electricity selling terminal before generating the electric power transaction order, the electric power transaction behavior which is caused by the fact that the first electricity selling terminal is subjected to illegal intrusion control and is performed by operating the terminal to damage the interests of enterprises can be avoided, and the safety of the electric power transaction of the enterprises can be improved.

Description

Electric power market transaction method and platform

Technical Field

The invention relates to the technical field of electric power trading, in particular to an electric power market trading method and platform.

Background

With the continuous development of the electric power industry, the electric power market reforms and steadily advances in China, and the trading mode of the electric power market is fundamentally changed. The electric market trading frequency is obviously increased, the pace of trading system reform is advanced, and the market trading mechanism is continuously perfected. How to better establish and perfect an electricity selling trading platform, standardize the main behavior of an electric power market, enlarge the range of market trading objects and ensure the stable operation of the electric power market trading platform is a great importance of current work.

In the prior art, each transaction main body (namely, electricity consumption and power generation enterprises) generally performs corresponding transaction operation through one terminal, and after the identity authentication is completed through the terminal, the electric power market transaction platform confirms that the transaction is effective. However, since each transaction entity generally uses a fixed terminal as a power transaction operation terminal, once the login password of the terminal is revealed, there may be an electric power transaction action by which an lawbreaker can perform damage to the interests of the transaction entity. For example, it is possible for the network black block to attack the station terminal through the network and perform a power transaction action that compromises the interests of the enterprise by operating the station terminal.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, and provides a power market trading method and a power market trading platform, which can improve the safety of power trading of enterprises.

In a first aspect, the present invention provides a method for trading an electric power market, the method being applied to a network including a trading server, a first electricity selling terminal, a second electricity selling terminal, and a plurality of electricity purchasing terminals; the method comprises the following steps:

the first electricity selling terminal sends an electricity selling request to the transaction server; the electricity selling request carries electricity selling data, wherein the electricity selling data comprises total electric quantity to be sold and corresponding pre-selling price;

each of the plurality of electricity purchasing terminals respectively sends a corresponding electricity purchasing request to the transaction server; the electricity purchasing request carries electricity purchasing data, wherein the electricity purchasing data comprises total electricity pre-purchasing quantity and corresponding pre-purchasing price;

the transaction server sends electricity purchasing data of the electricity purchasing terminal meeting preset conditions to the first electricity selling terminal;

the first electricity selling terminal responds to the received electricity purchasing data and sends a transaction success instruction to the transaction server; the transaction success instruction is used for indicating the electricity purchasing terminal which is selected by the first electricity selling terminal and is used as a transaction object, and the transaction success instruction carries first identity authentication information;

the transaction server authenticates the first identity authentication information carried in the received transaction success instruction, and sends the transaction success instruction to the second electricity selling terminal after the authentication is passed;

the second electricity selling terminal responds to the received transaction success instruction and sends a transaction confirmation instruction to the transaction server; the transaction confirmation instruction carries second identity authentication information;

and when the transaction server receives the transaction confirmation instruction within the preset time, authenticating the second identity authentication information carried in the transaction confirmation instruction, and generating an electric power transaction order after the authentication is passed.

As a further improvement, the first identity authentication information includes fingerprint information or face information; the second identity authentication information includes fingerprint information or face information.

As a further improvement, the electricity purchasing terminal meeting the preset condition is an electricity purchasing terminal with the total electricity pre-purchasing amount not larger than the total electricity to be sold and the pre-purchasing price not lower than the pre-selling price in the electricity purchasing data.

As a further improvement, the electricity selling data also comprises a 24-hour electricity selling curve, wherein the 24-hour electricity selling curve is used for representing the electricity selling unit price corresponding to each period in 24 hours;

the electricity purchasing data also comprises a 24-hour electricity purchasing curve, and the 24-hour electricity purchasing curve is used for representing the electricity purchasing unit price corresponding to each period in 24 hours;

the electricity purchasing terminal meeting the preset conditions is one of the plurality of electricity purchasing terminals, wherein the sum of electricity purchasing unit prices corresponding to each time period in 24 hours is larger than or equal to the sum of electricity purchasing unit prices corresponding to each time period in 24 hours of the electricity selling terminal.

As a further improvement, the method further comprises:

and when the transaction server does not receive the transaction confirmation instruction within the preset time, sending a reminding signal to the first electricity selling terminal.

In a second aspect, the invention provides an electric power market trading platform, which comprises a trading server, a first electricity selling terminal, a second electricity selling terminal and a plurality of electricity purchasing terminals which form a network;

the first electricity selling terminal is used for sending an electricity selling request to the transaction server; the electricity selling request carries electricity selling data, wherein the electricity selling data comprises total electric quantity to be sold and corresponding pre-selling price;

each of the plurality of electricity purchasing terminals is used for sending a corresponding electricity purchasing request to the transaction server; the electricity purchasing request carries electricity purchasing data, wherein the electricity purchasing data comprises total electricity pre-purchasing quantity and corresponding pre-purchasing price;

the transaction server is used for sending the electricity purchasing data of the electricity purchasing terminal meeting the preset conditions to the first electricity selling terminal;

the first electricity selling terminal is also used for responding to the received electricity purchasing data and sending a transaction success instruction to the transaction server; the transaction success instruction is used for indicating the electricity purchasing terminal which is selected by the first electricity selling terminal and is used as a transaction object, and the transaction success instruction carries first identity authentication information;

the transaction server is also used for authenticating the first identity authentication information carried in the received transaction success instruction, and sending the transaction success instruction to the second electricity selling terminal after the authentication is passed;

the second electricity selling terminal is also used for responding to the received transaction success instruction and sending a transaction confirmation instruction to the transaction server; the transaction confirmation instruction carries second identity authentication information;

the transaction server is also used for authenticating the second identity authentication information carried in the transaction confirmation instruction when the transaction confirmation instruction is received within the preset time, and generating an electric power transaction order after the authentication is passed.

As a further improvement, the first identity authentication information includes fingerprint information or face information; the second identity authentication information includes fingerprint information or face information.

As a further improvement, the electricity purchasing terminal meeting the preset condition is an electricity purchasing terminal with the total electricity pre-purchasing amount not larger than the total electricity to be sold and the pre-purchasing price not lower than the pre-selling price in the electricity purchasing data.

As a further improvement, the electricity selling data also comprises a 24-hour electricity selling curve, wherein the 24-hour electricity selling curve is used for representing the electricity selling unit price corresponding to each period in 24 hours;

the electricity purchasing data also comprises a 24-hour electricity purchasing curve, and the 24-hour electricity purchasing curve is used for representing the electricity purchasing unit price corresponding to each period in 24 hours;

the electricity purchasing terminal meeting the preset conditions is one of the plurality of electricity purchasing terminals, wherein the sum of electricity purchasing unit prices corresponding to each time period in 24 hours is larger than or equal to the sum of electricity purchasing unit prices corresponding to each time period in 24 hours of the electricity selling terminal.

As a further improvement, the transaction server is further used for sending a reminding signal to the first electricity selling terminal when the transaction confirmation instruction is not received within the preset time.

Compared with the prior art, the electric power market trading method and platform provided by the invention have the following beneficial effects:

the transaction server authenticates the first identity authentication information carried in the received transaction success instruction, and sends the transaction success instruction to the second electricity selling terminal after the authentication is passed; the second electricity selling terminal responds to the received transaction success instruction and sends a transaction confirmation instruction to the transaction server; the transaction confirmation instruction carries second identity authentication information; and when the transaction server receives the transaction confirmation instruction within the preset time, authenticating the second identity authentication information carried in the transaction confirmation instruction, and generating an electric power transaction order after the authentication is passed. Because the transaction server needs to verify the first identity authentication information and the second identity authentication information provided by the first electricity selling terminal and the second electricity selling terminal before generating the electric power transaction order, the electric power transaction behavior which is caused by the fact that the first electricity selling terminal is subjected to illegal intrusion control and is performed by operating the terminal to damage the interests of enterprises can be avoided, and the safety of the electric power transaction of the enterprises can be improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The invention is further described below with reference to the drawings and examples;

FIG. 1 is an application environment diagram of a power marketplace trading method, in one embodiment.

FIG. 2 is a flow chart of a method of power market trading in one embodiment.

FIG. 3 is a block diagram of a computer device in one embodiment.

Detailed Description

Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present invention, but not to limit the scope of the present invention.

In order to facilitate understanding of the invention, it is necessary to briefly describe terms to which the invention relates.

Electric quantity decomposition curve (comprising an electric quantity electricity purchasing curve and an electric quantity electricity selling curve): the double-side negotiation transaction of the year and month (week), wherein the two parties of the purchase and sale automatically negotiate the transaction electric quantity, the transaction price and the user-defined 96 time period decomposition curves of the two parties, sign the double-side negotiation transaction contract and report to the transaction center; and in the specified transaction time, submitting 96 time period decomposition curves and transaction prices to an electric power transaction platform by the electricity purchasing party, and confirming by the electricity selling party on the platform as a medium-long term contract settlement basis. The 24-hour electricity purchasing curve and the 24-hour electricity selling curve claimed in the invention decompose electricity prices decomposed in 96 time periods in one day, and can be understood as step electricity prices in popular terms.

FIG. 1 is an application environment diagram of a power marketplace trading method, in one embodiment. Referring to fig. 1, the electric power market trading method is applied to an electric power market trading platform. The electric power market trading platform includes a trading server 100, a first electricity vending terminal 210, a second electricity vending terminal 220, and a plurality of electricity purchasing terminals 300. The transaction server 100 is connected to the first electricity vending terminal 210, the second electricity vending terminal 220, and the plurality of electricity purchasing terminals 300 via a network, respectively. The first electricity selling terminal 210, the second electricity selling terminal 220, and the electricity purchasing terminal 300 may be specifically desktop terminals or mobile terminals, and the mobile terminals may be specifically at least one of mobile phones, tablet computers, notebook computers, and the like. The transaction server 100 may be implemented as a stand-alone server or as a server cluster of multiple servers.

The method for trading the electric power market according to the embodiment of the present invention will be described and illustrated in detail below by means of several specific embodiments.

As shown in fig. 2, in one embodiment, a method of power market trading is provided. The method is applied to a network including a transaction server 100, a first electricity vending terminal 210, a second electricity vending terminal 220, and a plurality of electricity purchasing terminals 300;

referring to fig. 2, the electric power market trading method specifically includes the steps of:

step S110: the first electricity vending terminal 210 transmits an electricity vending request to the transaction server 100; the electricity selling request carries electricity selling data, and the electricity selling data comprises total electric quantity to be sold and corresponding pre-selling price. For example, the total amount of electricity for sale is 10000 kilowatt-hours, the corresponding pre-selling price is 10000 yuan, i.e. 1 yuan per unit price of 1 degree electricity (equal to 1 kilowatt-hour).

Step S120: each of the plurality of electricity purchasing terminals 300 respectively transmits a corresponding electricity purchasing request to the transaction server 100; the electricity purchasing request carries electricity purchasing data, wherein the electricity purchasing data comprises total electricity pre-purchasing quantity and corresponding pre-purchasing price. For example, a total of 4 purchase subjects log in through 4 purchase terminals 300 and send corresponding purchase requests to the transaction server 100, wherein the total pre-purchase power corresponding to one purchase terminal 300 is 9000 kwh, and the corresponding pre-purchase price is 9000 yuan, that is, the 1 degree electricity price is 1 yuan.

Step S130: the transaction server 100 transmits the electricity purchasing data of the electricity purchasing terminal 300 conforming to the preset condition to the first electricity vending terminal 210.

In one example, the electricity purchasing terminal 300 meeting the preset condition is the electricity purchasing terminal 300 with the total electricity pre-purchase amount not greater than the total electricity for sale and the pre-purchase price not less than the pre-sale price in the electricity purchasing data. When the total electric quantity to be sold of the electricity selling terminal is 10000 kilowatt hours, the corresponding pre-selling price is 10000 yuan. The total electricity purchase amount of one electricity purchase terminal 300 is 9000 kilowatt-hours, and the corresponding pre-purchase price is 9000 yuan. It is determined that the electricity purchasing terminal 300 meets a preset condition.

In another example, the electricity selling data further includes a 24-hour electricity selling curve, where the 24-hour electricity selling curve is used to represent electricity selling prices corresponding to each period of time within 24 hours; the electricity purchasing data also comprises a 24-hour electricity purchasing curve, and the 24-hour electricity purchasing curve is used for representing the electricity purchasing unit price corresponding to each period in 24 hours; the electricity purchasing terminal 300 meeting the preset condition is the electricity purchasing terminal 300, wherein the sum of electricity purchasing prices corresponding to each time period in 24 hours in the plurality of electricity purchasing terminals 300 is larger than or equal to the sum of electricity selling prices corresponding to each time period in 24 hours in the electricity selling terminal. It can be appreciated that, in this example, the transaction server 100 needs to compare the 24-hour electricity purchase curve corresponding to the electricity purchase data carried in the electricity purchase requests sent by the 4 electricity purchase terminals 300 with the 24-hour electricity sales curve provided by the first electricity sales terminal 210 in a one-to-one correspondence manner. Dividing a day (i.e., 24 hours) into 96 time periods, the electricity of the buyer is charged for one time period for 15 minutes. For example, for the first electricity vending terminal 210, the electricity vending unit price of the 1 st to 48 th time periods is 0.6 yuan/1 degree electricity, and the electricity vending unit price of the 49 th to 96 th time periods is 1.0 yuan/1 degree electricity. For example, comparison shows that the electricity purchasing unit price of the 1 st period of the 24 hour electricity purchasing curve provided by the 1 st electricity purchasing terminal 300 is 0.5 yuan/1 degree electricity, although the electricity purchasing unit price is smaller than 0.6 yuan/1 degree electricity, the sum of the electricity selling unit prices of 96 periods of the electricity purchasing terminal is (0.6×48+1.0×48) =153.6, and the sum of the electricity purchasing unit prices of 96 periods of the electricity purchasing terminal=154, that is, the sum of the electricity purchasing unit prices of the 96 periods of the electricity purchasing terminal is larger than the sum of the electricity selling unit prices corresponding to each period in 24 hours of the first electricity purchasing terminal 210, and at this time, the electricity purchasing terminal 300 is still determined to meet the preset condition.

It can be appreciated that, in this example, whether the electricity purchasing terminal 300 meets the preset condition can be freely set by the first electricity selling terminal 210, so that different electricity selling subjects can conveniently set more accurate and more suitable preset conditions according to actual requirements, and the accuracy of screening the electricity purchasing subjects meeting the requirements of themselves is improved.

Step S140: the first electricity vending terminal 210 transmits a transaction success instruction to the transaction server 100 in response to the received electricity purchase data; the transaction command is used for indicating the electricity purchasing terminal 300 selected by the first electricity selling terminal 210 as the transaction object, and the transaction command carries the first identity authentication information.

Step S150: the transaction server 100 authenticates the first identity authentication information carried in the received transaction receipt, and transmits the transaction receipt to the second electricity vending terminal 220 after the authentication is passed.

Specifically, the first authentication information includes fingerprint information or face information, which is already recorded in the transaction server 100 in advance, so that the transaction server 100 can perform authentication later. In this embodiment, the algorithm used by the transaction server 100 to identify face information or fingerprint information belongs to the prior art, and will not be described here again.

Step S160: the second electricity vending terminal 220 transmits a transaction confirmation instruction to the transaction server 100 in response to the received transaction success instruction; the transaction confirmation instruction carries second identity authentication information. The second identity authentication information includes fingerprint information or face information, which is already input to the transaction server 100 in advance, so that the transaction server 100 can perform authentication later. In this embodiment, the algorithm used by the transaction server 100 to identify face information or fingerprint information belongs to the prior art, and will not be described here again.

Step S170: when the transaction server 100 receives the transaction confirmation instruction within the preset time, the second identity authentication information carried in the transaction confirmation instruction is authenticated, and after the authentication is passed, an electric power transaction order is generated.

It can be appreciated that, although the first electricity vending terminal 210 has passed the authentication, since the second identity authentication information of the second electricity vending terminal 220 also needs to be authenticated to issue the transaction confirmation instruction, illegal transaction operations caused by hacking or illegal molecule intrusion into the first electricity vending terminal 210 can be prevented.

In some embodiments, the method further comprises:

when the transaction server 100 does not receive the transaction confirmation instruction within the preset time, a reminding signal is sent to the first electricity vending terminal 210. In some scenarios, if an employee authorized by the enterprise normally operates on the first electricity vending terminal 210, when the transaction server 100 does not receive the transaction confirmation instruction within a preset time, it indicates that the operator of the second electricity vending terminal 220 may not notice the electric power transaction, and by sending a reminding signal to the first electricity vending terminal 210, the operator operating the first electricity vending terminal 210 may be reminded to timely contact the operator of the second electricity vending terminal 220 through a telephone or other means, so as to speed up the efficiency of the transaction.

As shown in fig. 1, in another aspect, the present invention provides an electric power market trading platform including a trading server 100, a first electricity selling terminal 210, a second electricity selling terminal 220, and a plurality of electricity purchasing terminals 300, which form a network;

the first electricity vending terminal 210 is configured to send an electricity vending request to the transaction server 100; the electricity selling request carries electricity selling data, wherein the electricity selling data comprises total electric quantity to be sold and corresponding pre-selling price;

each of the plurality of electricity purchasing terminals 300 is configured to send a corresponding electricity purchasing request to the transaction server 100; the electricity purchasing request carries electricity purchasing data, wherein the electricity purchasing data comprises total electricity pre-purchasing quantity and corresponding pre-purchasing price;

the transaction server 100 is configured to send the electricity purchasing data of the electricity purchasing terminal 300 meeting the preset condition to the first electricity vending terminal 210;

the first electricity vending terminal 210 is further configured to send a transaction success instruction to the transaction server 100 in response to the received electricity purchase data; the transaction success instruction is used for indicating the electricity purchasing terminal 300 selected by the first electricity selling terminal 210 as the transaction object, and the transaction success instruction carries first identity authentication information;

the transaction server 100 is further configured to authenticate the first identity authentication information carried in the received transaction receipt instruction, and send the transaction receipt instruction to the second electricity vending terminal 220 after the authentication is passed;

the second electricity vending terminal 220 is further configured to send a transaction confirmation instruction to the transaction server 100 in response to the received transaction success instruction; the transaction confirmation instruction carries second identity authentication information;

the transaction server 100 is further configured to, when receiving the transaction confirmation instruction within a preset time, authenticate the second identity authentication information carried in the transaction confirmation instruction, and generate an electric power transaction order after the authentication is passed.

As a further improvement, the first identity authentication information includes fingerprint information or face information; the second identity authentication information includes fingerprint information or face information.

As a further improvement, the electricity purchasing terminal 300 meeting the preset condition is the electricity purchasing terminal 300 with the total electricity pre-purchase amount not greater than the total electricity for sale and the pre-purchase price not less than the pre-sale price in the electricity purchasing data.

As a further improvement, the electricity selling data also comprises a 24-hour electricity selling curve, wherein the 24-hour electricity selling curve is used for representing the electricity selling unit price corresponding to each period in 24 hours;

the electricity purchasing data also comprises a 24-hour electricity purchasing curve, and the 24-hour electricity purchasing curve is used for representing the electricity purchasing unit price corresponding to each period in 24 hours;

the electricity purchasing terminal 300 meeting the preset condition is the electricity purchasing terminal 300, wherein the sum of electricity purchasing prices corresponding to each time period in 24 hours in the plurality of electricity purchasing terminals 300 is larger than or equal to the sum of electricity selling prices corresponding to each time period in 24 hours in the electricity selling terminal.

As a further improvement, the transaction server 100 is further configured to send a reminder to the first electricity vending terminal 210 when the transaction confirmation command is not received within a preset time.

It should be noted that, the device (i.e., platform) embodiment and the method embodiment of the present invention are based on the same inventive concept, and are not described herein again.

FIG. 3 illustrates an internal block diagram of a computer device in one embodiment. The computer device may specifically be the transaction server 100, the first electricity vending terminal 210, the second electricity vending terminal 220, or the electricity purchasing terminal 300 in fig. 1. As shown in fig. 3, the computer device includes a processor, a memory, a network interface, an input device, and a display screen connected by a system bus. The memory includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium of the computer device stores an operating system and may also store a computer program which, when executed by a processor, causes the processor to implement a power market transaction method. The internal memory may also have stored therein a computer program which, when executed by the processor, causes the processor to perform the method of electric market trading. It will be appreciated by those skilled in the art that the structure shown in FIG. 3 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements may be applied, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

In one embodiment, a computer-readable storage medium storing computer-executable instructions for causing a computer to perform the steps of the above-described power market trading method is provided. The steps of the power market trading method herein may be the steps of the power market trading method of the various embodiments described above.

Those skilled in the art will appreciate that all or part of the processes in the methods of the above embodiments may be implemented by a computer program for instructing relevant hardware, where the program may be stored in a non-volatile computer readable storage medium, and where the program, when executed, may include processes in the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRA), memory bus direct RAM (RDRA), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

Claims (4)

1. The electric power market trading method is characterized by being applied to a network comprising a trading server, a first electricity selling terminal, a second electricity selling terminal and a plurality of electricity purchasing terminals; the method comprises the following steps:

the first electricity selling terminal sends an electricity selling request to the transaction server; the electricity selling request carries electricity selling data, wherein the electricity selling data comprises total electric quantity to be sold and corresponding pre-selling price;

each of the plurality of electricity purchasing terminals respectively sends a corresponding electricity purchasing request to the transaction server; the electricity purchasing request carries electricity purchasing data, wherein the electricity purchasing data comprises total electricity pre-purchasing quantity and corresponding pre-purchasing price;

the transaction server sends electricity purchasing data of the electricity purchasing terminal meeting the first preset condition to the first electricity selling terminal; the electricity purchasing terminal meeting the first preset condition is an electricity purchasing terminal with the pre-purchase total electric quantity in the electricity purchasing data not larger than the total electric quantity for sale and the pre-purchase price not lower than the pre-sale price;

the electricity selling data further comprises a 24-hour electricity selling curve, wherein the 24-hour electricity selling curve is used for representing electricity selling unit price corresponding to each period in 24 hours;

the electricity purchasing data further comprises a 24-hour electricity purchasing curve, wherein the 24-hour electricity purchasing curve is used for representing electricity purchasing unit price corresponding to each period of 24 hours;

the transaction server sends electricity purchasing data of the electricity purchasing terminal meeting the second preset condition to the first electricity selling terminal; the electricity purchasing terminal meeting the second preset condition is one of a plurality of electricity purchasing terminals, wherein the sum of electricity purchasing unit prices corresponding to each time period in 24 hours is greater than or equal to the sum of electricity purchasing unit prices corresponding to each time period in 24 hours of the electricity selling terminal;

the first electricity selling terminal responds to the received electricity purchasing data and sends a transaction success instruction to the transaction server; the transaction success instruction is used for indicating the electricity purchasing terminal which is selected by the first electricity selling terminal and is used as a transaction object, and the transaction success instruction carries first identity authentication information;

the transaction server authenticates the first identity authentication information carried in the received transaction success instruction, and sends the transaction success instruction to the second electricity selling terminal after the authentication is passed;

the second electricity selling terminal responds to the received transaction success instruction and sends a transaction confirmation instruction to the transaction server; the transaction confirmation instruction carries second identity authentication information;

when the transaction server receives the transaction confirmation instruction within the preset time, authenticating the second identity authentication information carried in the transaction confirmation instruction, and generating an electric power transaction order after the authentication is passed;

and when the transaction server does not receive the transaction confirmation instruction within the preset time, a reminding signal is sent to the first electricity selling terminal.

2. The power market transaction method according to claim 1, wherein the first identity authentication information includes fingerprint information or face information; the second identity authentication information includes fingerprint information or face information.

3. The electric power market trading platform is characterized by comprising a trading server, a first electricity selling terminal, a second electricity selling terminal and a plurality of electricity purchasing terminals which form a network;

the first electricity selling terminal is used for sending an electricity selling request to the transaction server; the electricity selling request carries electricity selling data, wherein the electricity selling data comprises total electric quantity to be sold and corresponding pre-selling price;

each of the plurality of electricity purchasing terminals is used for sending a corresponding electricity purchasing request to the transaction server; the electricity purchasing request carries electricity purchasing data, wherein the electricity purchasing data comprises total electricity pre-purchasing quantity and corresponding pre-purchasing price;

the transaction server is used for sending the electricity purchasing data of the electricity purchasing terminal meeting the first preset condition to the first electricity selling terminal; the electricity purchasing terminal meeting the first preset condition is an electricity purchasing terminal with the pre-purchase total electric quantity in the electricity purchasing data not larger than the total electric quantity for sale and the pre-purchase price not lower than the pre-sale price;

the electricity selling data further comprises a 24-hour electricity selling curve, wherein the 24-hour electricity selling curve is used for representing electricity selling unit price corresponding to each period in 24 hours;

the electricity purchasing data further comprises a 24-hour electricity purchasing curve, wherein the 24-hour electricity purchasing curve is used for representing electricity purchasing unit price corresponding to each period of 24 hours;

the transaction server is used for sending the electricity purchasing data of the electricity purchasing terminal meeting the second preset condition to the first electricity selling terminal; the electricity purchasing terminal meeting the second preset condition is one of a plurality of electricity purchasing terminals, wherein the sum of electricity purchasing unit prices corresponding to each time period in 24 hours is greater than or equal to the sum of electricity purchasing unit prices corresponding to each time period in 24 hours of the electricity selling terminal;

the first electricity selling terminal is also used for responding to the received electricity purchasing data and sending a transaction success instruction to the transaction server; the transaction success instruction is used for indicating the electricity purchasing terminal which is selected by the first electricity selling terminal and is used as a transaction object, and the transaction success instruction carries first identity authentication information;

the transaction server is also used for authenticating the first identity authentication information carried in the received transaction success instruction, and sending the transaction success instruction to the second electricity selling terminal after the authentication is passed;

the second electricity selling terminal is also used for responding to the received transaction success instruction and sending a transaction confirmation instruction to the transaction server; the transaction confirmation instruction carries second identity authentication information;

the transaction server is also used for authenticating the second identity authentication information carried in the transaction confirmation instruction when the transaction confirmation instruction is received within the preset time, and generating an electric power transaction order after the authentication is passed;

the transaction server is also used for sending a reminding signal to the first electricity selling terminal when the transaction confirmation instruction is not received within the preset time.

4. A power market trading platform in accordance with claim 3, wherein the first identity authentication information includes fingerprint information or face information; the second identity authentication information includes fingerprint information or face information.

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