CN111932407A - Energy-saving contribution rewarding method for energy block chain - Google Patents

Abstract

The invention discloses an energy-saving contribution rewarding method of an energy block chain. The reward method designed by the invention comprises the following steps: the energy block chain node packages and uploads the energy-saving contribution data of the user to a block chain system; the user account calls an energy-saving contribution reward intelligent contract arranged on the chain, and the energy-saving contribution is determined to be replaced into a basic quantitative relation of an energy-saving certificate according to a basic replacement mechanism; and determining a multi-factor correction quantitative relation for replacing the energy-saving contribution into the energy-saving voucher according to the multi-element hierarchical replacement mechanism, replacing the energy-saving contribution into the energy-saving voucher through the basic replacement mechanism and the multi-element hierarchical replacement mechanism in sequence, and allocating the energy-saving contribution to a user account providing the energy-saving contribution to be used as an energy-saving contribution reward. The invention can realize the value quantitative reward contributing to the energy conservation of the user, promote the energy conservation and emission reduction of the user and further promote the development and popularization of the energy-saving technology.

Description

Energy-saving contribution rewarding method for energy block chain

Technical Field

The invention relates to the technical field of energy conservation and a block chain, in particular to an energy-saving contribution rewarding method of an energy block chain.

Background

With the development of social productivity and the improvement of living standard of people, the increasing energy consumption gradually becomes a bottleneck restricting the sustainable development of economy and society, so that the important significance is achieved by taking certain measures to promote energy conservation and emission reduction. The energy-saving creation value records and manages the energy-saving contribution of the user, measures the value of the user and quantificationally rewards the user, and is an important means for promoting the energy conservation and emission reduction of the user and further promoting the development and popularization of the energy-saving technology.

The proposal of the blockchain technology provides a direction for the realization of the above means. The block chain technology has the characteristics of decentralization, openness and transparency, no data falsification, uplink information traceability and the like, and can ensure the recording, management and measurement of energy-saving contribution rewards and quantify the fairness, effectiveness and safety of the rewards.

During the course of research and practice on this method, the inventors of the present invention found that there are currently few studies in this regard. The document retrieval of the prior art finds that Chinese invention patent (application number: 201810828344. X) provides a household appliance energy-saving reward system and method based on a block chain, and relevant government policies are disclosed and transparently executed, so that the system and method are beneficial to improving the energy-saving emission-reduction enthusiasm of users and promoting the effective saving of energy, but the document does not provide a specific implementation mechanism for quantifying reward of energy-saving contribution value of an energy block chain.

Disclosure of Invention

The invention provides an energy-saving contribution reward method of an energy block chain, which can overcome the defects of the prior art, realize the value quantitative reward of energy-saving contribution of a user, promote the energy conservation and emission reduction of the user and further promote the development and popularization of an energy-saving technology.

In order to achieve the purpose, the invention adopts the following technical scheme:

a method for rewarding energy-saving contribution of an energy blockchain comprises the following steps:

s1, the energy-saving contribution data of the user are packaged and uploaded to the block chain system by the energy block chain node;

s2, calling an energy-saving contribution reward intelligent contract deployed on the chain by the user account, and determining a basic quantitative relation of energy-saving contribution replacement into an energy-saving certificate according to a basic replacement mechanism;

and S3, determining the multi-factor correction quantitative relation of energy-saving contribution replaced by energy-saving certificates according to the multi-element hierarchical replacement mechanism, replacing the energy-saving contribution data into the energy-saving certificates sequentially through the basic replacement mechanism and the multi-element hierarchical replacement mechanism, and distributing the energy-saving contribution data to user accounts providing the energy-saving contribution as energy-saving contribution rewards.

Further, the energy saving contribution sources comprise technical energy saving, equipment energy saving and management energy saving, and the characterization quantities comprise energy saving and emission reduction.

Further, the energy-saving certificate is a value carrier for quantifying energy-saving contribution, and is a value reward form of the energy-saving contribution on an energy block chain, and comprises an energy-saving certificate.

Further, the basic replacement mechanism in step S2 includes the following sub-steps:

s2.1, when the total amount of issued energy-saving vouchers does not exceed an initial replacement threshold value, each energy-saving contribution can be exchanged for 1 energy-saving voucher, and the energy-saving vouchers have divisibility;

s2.2, when the total amount of the issued energy-saving certificates is increased to a set multiple, the basic quantitative relation between the energy-saving contribution and the energy-saving certificates is correspondingly changed, and the following requirements are met:

in the formula (I), the compound is shown in the specification,

quantifying a quantity for a permuted energy-saving credential basis;

contributes to energy conservation;

for substitution proportionality coefficient between energy-saving contribution and energy-saving certificate, i.e.YThe energy-saving contribution can be replaced by 1 sectionA warrant;

issuing a total amount for the energy-saving voucher;

is an initial permutation threshold;ma base value that is a permutation threshold expansion factor;nthe value of the parameter for determining the total amount range of the energy-saving certificate is a positive integer.

Further, the multivariate hierarchical replacement mechanism in step S3 includes the following sub-steps:

s3.1, considering factors such as energy-saving technology advancement, regional energy-saving technology popularization degree, industry energy-saving technology popularization degree, energy-saving difficulty degree in a specific energy-saving scene and the like, and performing multi-element grading replacement processing after completing basic replacement of energy-saving contribution and energy-saving certificates;

and S3.2, dividing the grades of all factors into a high grade, a medium grade and a low grade, and multiplying the basic quantized quantity of the energy-saving voucher by the influence coefficient of each factor grade to perform replacement and correction to obtain the final multi-factor corrected quantized quantity of the energy-saving voucher.

Further, the calculation formula of the multivariate hierarchical replacement mechanism is as follows:

in the formula:

replacing the basic quantitative number of the energy-saving voucher with a comprehensive proportional coefficient of the multi-factor correction quantitative number;k _t 、k _r 、k _v 、k _d respectively corresponding to the influence coefficients of the advancement of energy-saving technology, the popularization degree of regional energy-saving technology, the popularization degree of industrial energy-saving technology and the energy-saving difficulty degree under a specific energy-saving scene,k _t comprises thatk _{t_h} 、k _{t_m} 、k _{t_l} ，k _r Comprises thatk _{r_h} 、k _{r_m} 、k _{r_l} ，k _v Comprises thatk _{v_h} 、k _{v_m} 、k _{v_l} ，k _d Comprises thatk _{d_h} 、k _{d_m} 、k _{d_l} Sub-variables of three levels of equal height, middle height and lower height;

and correcting the quantitative number for the final replaced energy-saving certificate in a multi-factor mode.

The invention has the beneficial effects that: the invention realizes the value quantitative reward contributing to the energy conservation of the user, promotes the energy conservation and emission reduction of the user, and further promotes the development and popularization of the energy-saving technology.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of an energy-saving contribution rewarding method for an energy blockchain according to the present invention.

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 order to facilitate the user to understand the present invention, the design ideas of the basic replacement mechanism and the multi-element hierarchical replacement mechanism related to the present invention are first explained. The basic replacement mechanism considers the growth trend of the energy-saving certificate issuing quantity, and sets parameter values of the basic replacement mechanism by predicting the total energy-saving quantity and the energy-saving certificate issuing quantity in a future period of time. In addition, due to the fact that energy-saving technologies adopted by energy-saving equipment are different, the popularization degree of the energy-saving technologies in the areas and industries is different, the energy-saving difficulty degree is different under a specific energy-saving scene, and other factors, the replacement relation between the energy-saving contribution and the energy-saving voucher is subjected to diversified hierarchical processing in the diversified hierarchical replacement mechanism and is divided into three grades of high, middle and low, and the quantity of the energy-saving voucher subjected to basic replacement is subjected to multi-factor correction and quantification according to the influence coefficient of each factor grade.

Referring to fig. 1, an embodiment of the invention provides a method for rewarding energy-saving contribution of an energy blockchain, which includes the following steps:

s1: the energy block chain node packages and uploads the energy-saving contribution data of the user to a block chain system;

specifically, sources of energy savings contributions include, but are not limited to, technology energy savings, equipment energy savings, and management energy savings; its characteristic quantities include, but are not limited to, energy saving, displacement reduction;

s2: and calling the intelligent contract of the energy-saving contribution reward deployed on the chain by the user account of the block chain system, and determining the basic quantitative relation of replacing the energy-saving contribution into the energy-saving certificate according to a basic replacement mechanism. The specific substeps are as follows:

s2.1: when the total amount of issued energy-saving vouchers does not exceed the initial replacement threshold value, each energy-saving contribution can be exchanged for 1 energy-saving voucher, and the energy-saving vouchers have divisibility;

s2.2: when the total amount of the issued energy-saving certificates is increased to a set multiple, the basic quantitative relation between the energy-saving contribution and the energy-saving certificates is correspondingly changed, and the following requirements are met:

in the formula (I), the compound is shown in the specification,

quantifying a quantity for a permuted energy-saving credential basis;

contributes to energy conservation;

for substitution proportionality coefficient between energy-saving contribution and energy-saving certificate, i.e.YThe energy-saving contribution can replace 1 energy-saving certificate;

issuing a total amount for the energy-saving voucher;

is an initial permutation threshold;ma base value that is a permutation threshold expansion factor;nthe value of the parameter for determining the total amount range of the energy-saving certificate is a positive integer.

Specifically, the energy-saving certificate is a value carrier for quantifying energy-saving contribution, and is a value reward form of the energy-saving contribution on an energy block chain, including but not limited to an energy-saving certificate.

S3: and determining a multi-factor correction quantitative relation for replacing the energy-saving contribution into the energy-saving voucher according to the multi-element hierarchical replacement mechanism, replacing the energy-saving contribution into the energy-saving voucher through the basic replacement mechanism and the multi-element hierarchical replacement mechanism in sequence, and allocating the energy-saving contribution to a user account providing the energy-saving contribution to be used as an energy-saving contribution reward. The specific substeps are as follows:

s3.1: considering factors such as energy-saving technology advancement, regional energy-saving technology popularization degree, industry energy-saving technology popularization degree, energy-saving difficulty degree in a specific energy-saving scene and the like, performing multi-element grading replacement processing after completing basic replacement of energy-saving contribution and energy-saving certificates;

s3.2: and dividing the grades of all factors into a high grade, a medium grade and a low grade, and multiplying the basic quantized quantity of the energy-saving voucher by the influence coefficients of all factor grades to perform replacement correction to obtain the final multi-factor corrected quantized quantity of the energy-saving voucher.

The calculation formula of the multivariate hierarchical replacement mechanism is as follows:

in the formula:

replacing the basic quantitative number of the energy-saving voucher with a comprehensive proportional coefficient of the multi-factor correction quantitative number;k _t 、k _r 、k _v 、k _d respectively corresponding to the influence coefficients of the advancement of energy-saving technology, the popularization degree of regional energy-saving technology, the popularization degree of industrial energy-saving technology and the energy-saving difficulty degree under a specific energy-saving scene,k _t comprises thatk _{t_h} 、k _{t_m} 、k _{t_l} ，k _r Comprises thatk _{r_h} 、k _{r_m} 、k _{r_l} ，k _v Comprises thatk _{v_h} 、k _{v_m} 、k _{v_l} ，k _d Comprises thatk _{d_h} 、k _{d_m} 、k _{d_l} Sub-variables of three levels of equal height, middle height and lower height;

and correcting the quantitative number for the final replaced energy-saving certificate in a multi-factor mode.

The embodiment of the invention selects a building material company as an analysis object, takes the energy saving amount as a representation amount of energy saving contribution, takes the energy saving certificate as a value carrier for quantifying the energy saving amount, and is a value rewarding form of the energy saving amount on an energy block chain. The current block chain system has 7500 certificates of energy-saving issue, and the building material company generates 300-degree energy-saving contribution by equipment energy saving at a certain day.

The embodiment of the invention sets a basic replacement mechanism: when the total number of issued energy-saving certificates does not exceed 10000, 1 energy-saving certificate can be replaced every 100 degrees. When the total issuing quantity of the energy-saving certificate is 5 times of the threshold value of the energy-saving certificate replaced in the last stage, the basic replacement relation is correspondingly changed to the next stage, namelyQ=7500, E _s =300，X=10000，Y=100，m=5，n=1。

The energy-saving certificate base quantitative quantity replaced by the building material company is calculated asC _base =E _s /Y=300/100= 3.

In the embodiment of the invention, in order to promote energy conservation and emission reduction of users and promote development and popularization of energy-saving technology, the setting of the influence coefficients of different levels of all factors is higher in the advancement of the energy-saving technology, and the number of replaced energy-saving certificates is larger; the lower the popularization degree of the regional energy-saving technology is, the more the number of the replaced energy-saving certificates is; the lower the popularization degree of the industrial energy-saving technology is, the more the number of the replaced energy-saving certificates is; the higher the degree of energy-saving difficulty under a specific energy-saving scene is, the greater the number of replacement energy-saving certificates is. The influence coefficients of the various levels of the factors are shown in table 1.

Table 1 influence coefficients of various factors in different grades:

(a) the advanced grade of the energy-saving technology is divided according to the average energy-saving rate which can be achieved by the energy-saving technology, and the grade is set to be lower than 5%, medium grade between 5% and 7%, and high grade above 7%.

(b) The popularization degree grade of the regional energy-saving technology is divided according to the popularization and promotion rate of the regional energy-saving technology based on a large amount of industry data statistical results, and the low grade is set to be below 40%, the medium grade is set to be 40% -70%, and the high grade is set to be above 70%.

(c) The industrial energy-saving technology popularity level is divided according to the industrial energy-saving technology popularity rate based on a large amount of industrial data statistical results, and is set to be lower than 40%, middle between 40% and 70%, and high above 70%.

(d) The energy-saving difficulty degree grade under a specific energy-saving scene is divided according to the energy-saving scene, high energy-consuming industries such as steel industry, nonferrous metal industry and building materials are set to be low grade, low energy-consuming industries such as Internet are set to be high grade, and other industries are set to be medium grade.

The building material company in the embodiment of the invention is a high-energy-consumption industry (low grade), the average energy-saving rate of the adopted energy-saving technology reaches 6 percent (middle grade), the popularization and promotion rate of the technology in the area is 60 percent (middle grade), and the popularization and promotion rate of the energy-saving technology in the industry is 80 percent (high grade), namelyk _t =1.0，k _r =1.0，k _v =0.9，k _d =0.9, and the calculated energy-saving certificate basic quantization quantity is replaced by the comprehensive proportionality coefficient of the multi-factor correction quantization quantityK=k _t k _r k _v k _d =1.0 × 1.0 × 0.9 × 0.9=0.81, and the energy-saving certificate of the final replacement by the building material company is quantized by the multi-factor correction amountC _correction =KC _base =3 × 0.81= 2.43.

The invention realizes the value quantitative reward contributing to the energy conservation of the user, promotes the energy conservation and emission reduction of the user, and further promotes the development and popularization of the energy-saving technology.

The energy-saving contribution reward method of the energy block chain provided by the embodiment of the invention is described in detail, a specific example is applied in the text to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (6)

1. A method for rewarding energy-saving contribution of an energy blockchain is characterized by comprising the following steps:

s1, the energy-saving contribution data of the user are packaged and uploaded to the block chain system by the energy block chain node;

s2, calling an energy-saving contribution reward intelligent contract deployed on the chain by the user account, and determining a basic quantitative relation of energy-saving contribution replacement into an energy-saving certificate according to a basic replacement mechanism;

and S3, determining the multi-factor correction quantitative relation of energy-saving contribution replaced by energy-saving certificates according to the multi-element hierarchical replacement mechanism, replacing the energy-saving contribution data into the energy-saving certificates sequentially through the basic replacement mechanism and the multi-element hierarchical replacement mechanism, and distributing the energy-saving contribution data to user accounts providing the energy-saving contribution as energy-saving contribution rewards.

2. The method of claim 1, wherein the sources of the energy-saving contribution include technical energy-saving, equipment energy-saving, and management energy-saving; its characteristic quantities include energy saving and displacement reduction.

3. The method as claimed in claim 1, wherein the energy-saving certificate is a value carrier for quantifying energy-saving contribution, and is a value reward form of energy-saving contribution on the energy blockchain.

4. The method as claimed in claim 1, 2 or 3, wherein the basic replacement mechanism in step S2 comprises the following sub-steps:

s2.1, when the total amount of issued energy-saving vouchers does not exceed an initial replacement threshold value, each energy-saving contribution can be exchanged for 1 energy-saving voucher, and the energy-saving vouchers have divisibility;

s2.2, when the total amount of the issued energy-saving certificates is increased to a set multiple, the basic quantitative relation between the energy-saving contribution and the energy-saving certificates is correspondingly changed, and the following requirements are met:

in the formula (I), the compound is shown in the specification,

quantifying a quantity for a permuted energy-saving credential basis;

contributes to energy conservation;

for substitution proportionality coefficient between energy-saving contribution and energy-saving certificate, i.e.YThe energy-saving contribution can replace 1 energy-saving certificate;

issuing a total amount for the energy-saving voucher;

is an initial permutation threshold;ma base value that is a permutation threshold expansion factor;nthe value of the parameter for determining the total amount range of the energy-saving certificate is a positive integer.

5. The method as claimed in claim 4, wherein the step S3 comprises the following steps:

s3.1, considering energy-saving technology advancement, regional energy-saving technology popularization degree, industry energy-saving technology popularization degree and energy-saving difficulty degree factors in a specific energy-saving scene, and performing multi-element grading replacement processing after completing basic replacement of energy-saving contribution and energy-saving certificates;

and S3.2, dividing the grades of all factors into a high grade, a medium grade and a low grade, and multiplying the basic quantized quantity of the energy-saving voucher by the influence coefficient of each factor grade to perform replacement and correction to obtain the final multi-factor corrected quantized quantity of the energy-saving voucher.

6. The method of claim 5, wherein the calculation formula of the multivariate hierarchical replacement mechanism is as follows:

in the formula:

replacing the basic quantitative number of the energy-saving voucher with a comprehensive proportional coefficient of the multi-factor correction quantitative number;k _t 、k _r 、k _v 、k _d respectively corresponding to the influence coefficients of the advancement of energy-saving technology, the popularization degree of regional energy-saving technology, the popularization degree of industrial energy-saving technology and the energy-saving difficulty degree under a specific energy-saving scene,k _t comprises thatk _{t_h} 、k _{t_m} 、k _{t_l} ，k _r Comprises thatk _{r_h} 、k _{r_m} 、k _{r_l} ，k _v Comprises thatk _{v_h} 、k _{v_m} 、k _{v_l} ，k _d Comprises thatk _{d_h} 、k _{d_m} 、k _{d_l} Sub-variables of three levels of equal height, middle height and lower height;

and correcting the quantitative number for the final replaced energy-saving certificate in a multi-factor mode.

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