区块链分布式技术在电力需求侧响应管理中的应用

任昊文; 杨雅琪

doi:10.11959/j.issn.1000-0801.2019066

您当前的位置：

首页 >

文章列表页 >

区块链分布式技术在电力需求侧响应管理中的应用

运营技术广角 | 更新时间：2024-06-05

- 区块链分布式技术在电力需求侧响应管理中的应用
- Application of blockchain technology in the demand response management of power grid
- 电信科学 2019年35卷第5期页码：155-160
- 作者机构：
  
  1. 鼎信信息科技有限责任公司，广东广州 510623
  2. 广州致讯信息科技有限责任公司，广东广州 510032
- 作者简介：
  
  [ "任昊文（1993- ），男，现就职于鼎信信息科技有限责任公司，主要研究方向为电力系统配电网络的智能化与信息化。" ]
  [ "杨雅琪（1993- ），女，现就职于广州致讯信息科技有限责任公司,主要研究方向为区块链未来在各领域的应用。" ]
- 基金信息：
- DOI：10.11959/j.issn.1000-0801.2019066
  中图分类号： TM769
- 网络出版日期：2019-05，
  
  纸质出版日期：2019-05-20
- 稿件说明：
移动端阅览
任昊文, 杨雅琪. 区块链分布式技术在电力需求侧响应管理中的应用[J]. 电信科学, 2019,35(5):155-160.

Haowen REN, Yaqi YANG. Application of blockchain technology in the demand response management of power grid[J]. Telecommunications science, 2019, 35(5): 155-160.
任昊文, 杨雅琪. 区块链分布式技术在电力需求侧响应管理中的应用[J]. 电信科学, 2019,35(5):155-160. DOI： 10.11959/j.issn.1000-0801.2019066.

Haowen REN, Yaqi YANG. Application of blockchain technology in the demand response management of power grid[J]. Telecommunications science, 2019, 35(5): 155-160. DOI： 10.11959/j.issn.1000-0801.2019066.

摘要

研究了分散式区块链机制的理论，提出一种将区块链分布式技术应用于智能电网需求侧响应计划管理的方法。该方法基于区块链防篡改的分布式记账技术，存储从 IoT 智能计量设备收集的能量消耗信息，以编程方式定义每个消费者级别的自我执行智能合约，保障交易的灵活性。区块链分布式技术提供相关奖励或惩罚以平衡能源需求与电网能源生产的规则。基于共识的验证将用于检验需求响应计划，并为灵活的供应商提供适当的财务结算方式。结果表明，基于区块链分布式技术的电力需求侧管理可用于智能电网条件下的能源需求和生产匹配，需求响应信号精确度高，但收敛所需的灵活性减少。

Abstract

The theory of decentralized blockchain mechanism was studied

and a method of applying distributed block chain technology to manage demand response planning in smart grid environment was proposed.This method was based on the blockchain distributed ledger accounting tamper-proof technology

which stored the energy consumption information collected from the intelligent metering devices of the IoT

and defined the self-executing intelligent contract at each consumer level in a programmatic way to ensure the flexibility of transactions.Blockchain distributed technologies provided incentives or penalties to balance energy demand with grid energy production rules.Consensus-based validation would be used to validate demand response plans and provide appropriate financial settlement for flexible suppliers.The results show that the power demand side management based on blockchain distributed technology can be used to match energy demand and production under the condition of smart grid

with high accuracy of demand response signal

but less flexibility required for convergence.

关键词

Keywords

references

KARAVAS C S , ARVANITIS K , PAPADAKIS G . A game theory approach to multi-agent decentralized energy management of autonomous polygeneration microgrids [J ] . Energies , 2017 ( 10 ): 17 - 56 .

KYRIAKARAKOS G , PIROMALIS D D , DOUNIS A I , et al . Intelligent demand side energy management system for autonomous polygeneration microgrids [J ] . Apploed Energy , 2013 , 103 ( 1 ): 39 - 51 .

顾为东 . 能源 4.0:重塑经济结构—互联网技术与智慧能源 [J ] . 中国工程科学 , 2015 , 17 ( 3 ): 4 - 9 .

GU W D.Energy 4 . 0:constructing the economic structure,internet technology and smart energy [J ] . Engineering Science , 2015 , 17 ( 3 ): 4 - 9 .

KARTHIKEYAN B , DELIGNAT L A , FOURNET C , et al . Formal verification of smart contracts:short paper [C ] // ACM Workshop on Programming Languages and Analysis for Security,Oct 24,Vienna,Austria . New York:ACM Press , 2016 : 91 - 96 .

AITZHAN N Z , SVETINVIC D . Security and privacy in decentralized energy trading through multi-signatures,blockchain and anonymous messaging streams [J ] . IEEE Transactions on Dependable ＆ Secure Computiong , 2016 ( 99 ):1.

LIU N,YU X , WANG C , , et al . An energy sharing model with price-based demand response for microgrids of peer-to-peer prosumers [J ] . IEEE Transactions on Power System , 2017 , 32 ( 5 ): 3569 - 3583

刘伟荣 , 真虹 . 基于区块链的集装箱共享模式研究 [J ] . 中国流通经济 , 2018 , 5 ( 5 ):5.

LIU W R , ZHEN H . Research on container sharing model based on blockchain [J ] . China Business and Market , 2018 , 5 ( 5 ):5.

SIEBERT L C , FERREIRA L R , YAMAKAWA E K , et al . Centralized and decentralized approaches to demand response using smart plugs [C ] // T＆D Conference and Exposition,April 14-17,2014,Chicago,USA . Piscataway:IEEE Press , 2014 : 1 - 5

KING S , NADAL S . PPCoin:peer-to-peer crypto-currency with proof-of-stake [J ] . 2018 .

Opower . The value of the engaged energy consumer,quantifying the value of strong customer relationships for European Utilities [R ] . 2014 .

陈家良 , 张宏炜 . 需求响应及新型辅助服务市场中的备用市场研究 [J ] . 水电能源科学 , 2010 , 28 ( 2 ): 158 - 161 .

CHEN J L , ZHANG H W . Study on demand response and reserved market in ancillary service market [J ] . Water Resources and Power , 2010 , 28 ( 2 ): 158 - 161 .

李彬 , 张洁 , 祁兵 , 等 . 区块链:需求侧资源参与电网互动的支撑技术 [J ] . 电力建设 , 2017 , 38 ( 3 ): 1 - 8 .

LI B , ZHANG J , QI B , et al . Blockchain:supporting technology of demand side resources participating in grid interaction [J ] . Electric Power Construction , 2017 , 38 ( 3 ): 1 - 8 .

张建强 , 张高毓 . 区块链技术在物联网中的应用分析 [J ] . 电信科学 , 2018 , 34 ( S1 ): 104 - 110 .

ZHANG J Q , ZHANG G Y . Analysis application of blockchain technology in internet of things [J ] . Telecommunications Science , 2018 , 34 ( S1 ): 104 - 110 .

浏览量

348

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

基于强化学习的边缘计算智能电网资源调度算法

配电系统弹性光网络频谱整理优化算法

基于量子滤波器的电能数据检测与分析

面向智能电网二元复杂网络的电力统一空间信息模型

智能电网中无线传感器网络的节能节点定位方法