CN210295195U - Block chain power generation system, power generation facility and generated energy conversion node - Google Patents

Abstract

The application discloses block chain power generation system includes following module: the system comprises a power generation module, a transaction module and a conversion unit. The power generation module generates electric energy and generates power generation information; the power generation information comprises a power generation module identifier and output electric quantity. The conversion unit obtains an excitation value according to the product of the conversion coefficient and the output electric quantity. The storage unit stores the charging information, the conversion coefficient and the excitation value in a block chain manner. A blockchain power generation facility comprising the blockchain power generation system is a node on a blockchain network. A block chain generating capacity cashing node is used for a block chain generating system and comprises a conversion unit and a storage unit; distributed over nodes of a blockchain network; one or more of the power generation modules are connected in a wired or wireless manner. The application provides an efficient excitation mechanism for green power utilization by introducing a block chain technology.

Description

Block chain power generation system, power generation facility and generated energy conversion node

Technical Field

The application relates to the technical field of computers, in particular to a block chain power generation system and a power generation amount cashing method.

Background

With the development of economy, the demand for energy is increasing. With the rapid development, environmental protection is also a subject of current worldwide attention. In order to protect the environment and develop harmoniously, various green energy sources such as wind power, photovoltaic power generation, nuclear power and the like are researched and popularized vigorously by various countries. At present, in the aspects of development, application and popularization of green energy, governments often give some preferential policies and intend to encourage. Such as giving financial subsidies, consuming cash back or tickets, etc.

The existing green electric energy system comprises photovoltaic of a power generation end, wind power, an electric automobile power generation pile of a consumption end, an energy storage power station and the like, does not have end-to-end direct communication in an electric power transaction link, is mainly encouraged to develop by means of direct financial and currency subsidies of specific projects and the like, and is limited in economic incentive efficiency of green power generation and green power utilization.

The invention realizes the economic incentive of high-efficiency green power utilization by introducing a block chain encryption digital currency technology. And an economic incentive mechanism of power generation, power utilization and energy storage links is opened.

Disclosure of Invention

The embodiment of the application provides a block chain power generation system, a power generation facility and a generated energy conversion node, and solves the problem that the economic incentive efficiency of green power utilization is not high enough in the prior art.

The embodiment of the application provides a block chain power generation system, which comprises the following modules: the device comprises a power generation module, a conversion unit and a storage unit.

The power generation module is used for generating electric energy and generating power generation information; the power generation information includes: the power generation module marks and outputs electric quantity;

the conversion unit is used for generating an excitation value by using the product of a conversion coefficient and the output electric quantity;

the storage unit stores the power generation information, the conversion coefficient and the excitation value in a block chain manner.

Preferably, the system of the present application further comprises an identification device for determining that the power generation module identifies the corresponding wallet ID.

Preferably, the system of the present application further includes a first transaction module. And the first transaction module is used for collecting the amount of money corresponding to the output electric energy.

Preferably, in the system of the present application, the first transaction module is further configured to forward the power generation information and trigger the conversion unit.

Preferably, in the system of the present application, the conversion unit is built on an ethernet platform.

Preferably, the system of the present application further comprises a second transaction module for incentivizing the deduction of the amount of money due.

Preferably, the system of the present application further comprises a third transaction module for incentivizing value conversion into currency.

Preferably, the system of the present application further comprises a fourth transaction module for incentivizing value conversion of carbon emission amount.

An embodiment of the present application further provides a blockchain power generation facility, including the blockchain power generation system according to any one of the embodiments, where the blockchain power generation facility is a node on a blockchain network.

The embodiment of the application also provides a blockchain generated energy cashing node which is used for the blockchain power generation system in any embodiment of the application, and the blockchain power generation cashing node comprises the conversion unit and the storage unit which are distributed on each node of a blockchain network; one or more of the power generation modules are connected in a wired or wireless manner.

The embodiment of the application adopts at least one technical scheme which can achieve the following beneficial effects: by introducing the block chain encryption digital currency technology, the efficiency of economic incentive of green power utilization is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a block diagram of one embodiment of a blockchain power generation system;

FIG. 2 is a block chain power generation system in accordance with another embodiment;

FIG. 3 is a flow chart of a block chain power generation redemption method;

FIG. 4 is a schematic diagram of a block-chain power generation system with power generation facilities as nodes;

FIG. 5 is a schematic diagram of a power generation system with a power generation facility connected to a blockchain node.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, 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 application.

The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

Fig. 1 is a block diagram of a blockchain power generation system.

The embodiment of the application provides a block chain power generation system, which at least comprises the following modules:

a power generation module 11;

a conversion unit 12;

and a storage unit 13.

And the power generation module 11 is used for generating electric energy and generating power generation information. The power generation module is connected with the conversion unit in a wired or wireless mode, and the generated power generation information is transmitted to the conversion unit.

For example, the power generation module corresponds to at least one power generation facility, such as a clean energy generator, and outputs electric energy when the power generation facility works; the power generation module also monitors output electric quantity and generates power generation information. The power generation information includes: the power generation module identifies and outputs power.

The power generation module transmits the power generation information to the conversion unit on the block chain network through a wired or wireless network.

The power generation module identification corresponds to a wallet ID. The wallet ID is an account information that can be recognized by the system. The wallet ID information is stored in the blockchain system and has uniqueness.

The conversion unit 12, i.e. a multiplier, is used to generate an excitation value based on the conversion coefficient and the output power. Specifically, the excitation value V is the conversion coefficient T × the power generation amount P. When the power generation module works to generate electric energy, the conversion unit is triggered by a power generation event, receives a signal for identifying the output electric quantity P from the power generation module, and calculates an excitation value corresponding to the output electric quantity information according to a conversion rule. The format of the stimulus values, such as the most commonly used ERC20 format. The smart contract award incentive value may be triggered once the power generation is completed. The conversion unit is connected with the storage unit 13 through a block chain network, receives a signal representing the conversion coefficient T from the storage unit, and transmits a signal representing the excitation value V to the storage unit after calculating the excitation value.

Preferably, the power generation module transmits a signal representing power generation information to the storage unit directly or through the conversion unit.

The conversion rules are based on blockchain technology, digitally propagated, verified or executed contracts or protocols as intelligent contracts, allow trusted transactions to be conducted without third parties, and transactions are traceable but irreversible. The intelligent contract rule is formulated by the block chain power generation system, and the intelligent contract is established when an electric energy producer joins the block chain power generation system, is transmitted to the storage unit, is stored in the block chain node, and is triggered when the power generation module works.

The storage unit 13 stores the conversion coefficient, the power generation information, and the excitation value in a block chain manner. For example, the incentive value corresponding to the wallet ID transmitted by the conversion unit is stored in the blockchain in a distributed manner by the storage unit, and the incentive value is automatically executed, automatically updated and cannot be tampered, so that the method has the characteristics of high reliability and low error rate. The safety and the execution efficiency of the system are greatly improved.

Fig. 2 is a device diagram of another embodiment of a block chain power generation system. The invention further comprises a recognition device 21 and a counting device 23.

The identification device is used for determining the wallet ID according to the power generation module identification. For example, the power generation module identifier is received, and the wallet ID corresponding to the identifier is queried through the database to determine whether the identifier is a valid identifier. And after obtaining the corresponding wallet ID, judging whether the ID is valid or not, and if so, starting the conversion unit. It should be noted that if the identity of the power generation module is not authorized or is not authorized, for example, when the power generation equipment does not achieve green power generation, the wallet ID corresponding to the power generation module may be converted to an invalid ID.

For example, the wallet ID is held by the operator, owner, of the power generation facility, with one wallet ID corresponding to one or more power generation facilities and thus one or more power generation module identifications.

And a counting device 23 for metering the electric quantity. In particular, the output power is monitored while the power generation module is operating.

The further optimized embodiment of the invention also comprises a first transaction module which is used for collecting the amount corresponding to the output electric energy. The first transaction module is connected with the power generation module and receives power generation information. The first transaction module is also connected to a payment network.

For example, when the power generation module works, the power generation module sends information such as the power generation module identification and the output electric quantity to the first payment module. And the first payment module calculates the generation amount according to the generation rate, and adds the generation amount to an account corresponding to the generation module identifier at the server side.

As a further optimized embodiment of the present invention, the first transaction module is further configured to forward the power generation information and trigger the conversion unit.

As a further optimized embodiment of the invention, the intelligent contract is established on an Etherhouse platform. The advantage of the etherhouse over other blockchains is that it is itself based on an incentive scheme, which can easily implement almost any type of intelligent contract.

As a further optimized embodiment of the invention, the system also comprises a second transaction module for motivating the deduction of the payable money amount. The second transaction module is connected with the blockchain network, can identify the wallet ID and incentive value information corresponding to the power generation module identification, and carries out calculation according to the rules of the incentive value conversion account value. For example, after the power generation module stores the electric energy, the second transaction module acquires the wallet ID and the excitation value data corresponding to the power generation module identifier from the blockchain network, and performs power generation amount cashing calculation. The second transaction module is also connected with a payment network, and the remaining amount due after the incentive value is cashed is paid through the payment network.

As a further preferred embodiment of the invention, a third transaction module is further included for incentivizing value exchange for currency. And the third transaction module is connected with the blockchain network, can identify the wallet ID and the incentive value information corresponding to the power generation module identification, and performs calculation according to the rule of exchanging the incentive value into currency. The third transaction module is also connected with a bank through a payment network, and the calculated cash amount which can be paid is transmitted to the bank and transferred to the bank or taken out after confirmation.

As a further optimized embodiment of the invention, the system also comprises a fourth transaction module for converting the incentive value into the carbon emission amount. The fourth transaction module is connected with the block chain network and can identify the wallet ID and the incentive value information corresponding to the power generation module identification. The fourth transaction module is also connected with a carbon emission exchange which issues the carbon emission amount, and calculates and issues the carbon emission amount according to the rule that the incentive value is converted into the carbon emission amount.

Note that the monetary amount and the carbon emission amount may be summarized as an account value. The transaction modules (including, for example, the second to fourth transaction modules) of the present application are used to incentivize value conversion into "account value", which may be a monetary account, a carbon emission account, or any other credit account, and should be understood in a broad sense.

Fig. 3 is a flow chart of a block chain power generation amount reconciliation method.

The embodiment of the application provides a block chain power generation amount cashing method, which comprises the following steps:

step 31, detecting the output electric quantity of the power generation facility;

step 32, identifying a wallet ID corresponding to the power generation facility;

and step 33, executing an intelligent contract, generating a corresponding excitation value according to the stored electric quantity and/or the output electric quantity, and storing the corresponding excitation value in a block chain.

In step 31, the power generation module counts the amount of output power during, for example, a power generation operation performed by an electric energy producer. For example, after the generator operation switch is turned on, the counting device of the power generation module starts counting. When the power generation is finished, the switch is closed, and the counting is finished. Or periodically. The counting value is the output electric quantity. Meanwhile, the power generation module transmits power generation information, namely the power generation module identification and the output electric quantity, to the conversion unit through a network.

In step 32, a wallet ID is determined from the power generation module identification. For example, the power generation module identifier is received, and the wallet ID corresponding to the identifier is queried through the database to determine whether the identifier is a valid identifier. And after obtaining the corresponding wallet ID, judging whether the ID is valid or not, and if so, starting the conversion unit.

In step 33, for example, after the conversion unit receives the power generation information, the execution condition of the smart contract, i.e., the power generation event, is triggered. For example, the conversion unit executes an intelligent contract according to an intelligent contract rule, and calculates an excitation value corresponding to the output electric quantity. Finally, the conversion unit transfers the incentive value corresponding to the wallet ID issued this time to the storage unit, and the storage unit updates the incentive value under the wallet ID and stores it on the blockchain. The execution of the intelligent contract is automatic and efficient, the block chain technology is decentralized and can prevent falsification, and the backup of information in the whole network can ensure the reliability and safety of data, so that the efficiency of the system is improved, and the reliability of the system is enhanced.

Preferably, this embodiment further comprises the step of establishing an intelligent contract:

and step 30, creating an intelligent contract.

Commitments defined in digital form, including agreements for the execution of these commitments by contract participants, are established, written in computer-readable code, and executed by a computer or network of computers. The intelligent contract at least comprises: smart contract rules, wallet ID, incentive value. Wherein the intelligent contract rule includes an algorithm for calculating the excitation value using the power generation amount.

FIG. 4 is a schematic diagram of a block chain power generation system with power generation facilities as nodes.

The embodiment of the application provides a block chain power generation system with power generation facilities as nodes, which comprises modules: a blockchain power plant 10.

The block chain power generation facility comprises the following modules: the device comprises a power generation module 11, a conversion unit 12 and a storage unit 13.

The blockchain power generation facility is directly connected to the blockchain network as a node on the blockchain network. For example, when the user generates power at a power generation facility, the power generation module 11 transmits power generation information to the conversion unit 12 through the blockchain network, and the conversion unit calculates an excitation value corresponding to the wallet ID from the output power and transmits the excitation value to the storage unit for storage. Since the blockchain power generation facilities are blockchain nodes, the stored information is also verified and stored in a distributed manner on each blockchain power generation pile.

FIG. 5 is a schematic diagram of a power generation system with a power generation facility connected to a blockchain node.

The embodiment of the application provides a block chain power generation system with a power generation facility connected to a block chain node, which comprises the following modules:

a power generation module 11;

a block chain power generation amount conversion node 15;

a transaction module 16.

The block chain generated energy conversion node comprises: one or more of the components of the identification module 21, the conversion unit 12 and the storage unit 13. And the block chain generating capacity paying node is connected with the block chain network and distributed on each node of the block chain network. Each node participates in the distributed storage of power generation information. The block chain generating capacity cashing node is connected with the power generation module in a wired or wireless mode to transmit power generation information, store and execute intelligent contracts and calculate and store excitation values.

For example, the user generates electricity through the electricity generation module, and the electricity generation information is transmitted to the block chain electricity generation amount cashing node to execute the intelligent contract and store the excitation value in a distributed mode. The connection between the power generation module and the block chain power generation amount cashing node can be that a plurality of power generation modules containing power generation facilities are connected to the same block chain power generation amount cashing node or one-to-one connection.

The transaction module 16 is independent or connected to the block chain power generation amount cashing node, and comprises at least one of the following:

the system comprises a first transaction module, a second transaction module, a third transaction module and a fourth transaction module.

The first transaction module is connected with the payment network and charges the generated money by using money. The money payment can be card swiping, account transferring, third party platform payment, stored value card payment and the like.

The second transaction module is connected with the blockchain network and the payment network, can deduct the amount of money due by using the incentive value, and can pay by using the money through the connection of the payment network if the amount of money which is not deducted.

The third transaction module is connected to the blockchain network and the payment network and can exchange incentives for currency or other equivalents in accordance with the policy of the government financial subsidy agency. For example, from a bank, or from a website designated by a financial subsidy agency. Or trade of goods or services with incentive values.

The fourth trading module is connected with the blockchain network and trades in the carbon emission trading place by using the incentive value. For example, the fourth transaction module reads the incentive value from the blockchain power generation amount cashing node, pays the incentive value to the carbon emission exchange and obtains the corresponding carbon emission credit.

It should be noted that the monetary payment mentioned in the present invention is not limited to the current card swiping, transferring, third party platform payment, stored value card payment, etc., but may also include other monetary payment. The incentive value reward algorithm can be freely defined and is not limited. The redemption of the incentive value may also include other means, and is not limited.

It should also be noted that 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. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (4)

1. A block chain power generation system, comprising: the power generation module, the conversion unit and the storage unit;

the power generation module is used for generating electric energy and generating power generation information; the power generation module transmits a signal representing power generation information to the storage unit; the power generation information includes: the power generation module marks and outputs electric quantity;

the conversion unit is used for calculating the product of a conversion coefficient and the output electric quantity; the conversion unit receives a signal identifying the output power from the power generation module and a signal representing a conversion coefficient from the storage unit;

and the storage unit stores the power generation information and the conversion coefficient in a block chain mode.

2. The blockchain power generation system of claim 1, further comprising identification means for determining that the power generation module identifies a corresponding wallet ID.

3. A blockchain power generation facility comprising the blockchain power generation system of claim 1 or 2, wherein the blockchain power generation facility is a node on a blockchain network.

4. A blockchain power generation amount reconciliation node for use in the blockchain power generation system of claim 1 or 2,

the conversion unit and the storage unit are included;

distributed over nodes of a blockchain network;

one or more of the power generation modules are connected in a wired or wireless manner.

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