Design of Energy Transitive Platform Based On Smart Grid Via Block chain: Block chain energy transitive platform

IF 0.7 Q3 ENGINEERING, MULTIDISCIPLINARY TECCIENCIA Pub Date : 2022-02-02 DOI:10.18180/tecciencia.2022.32.5
jeffery rizvi, Ibrar Ul Haque, Jawad Ali Arshad, Fawadul Haq, Imran Aziz
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引用次数: 0

Abstract

In this paper, we present our research, where residents purchase and sell locally produced renewable energy from each other. In this research work, we integrate block chain technology to create peer-to-peer marketplaces for distributed energy. First, we use a smart energy meter to measure various important parameters of electrical energy. In this proposed work, the initial measurements of the current are being performed with the help of hall effect sensor due to its accuracy. Second, supply voltage is calculated with the help of a transformer and DC biasing method. The apparent power is calculated by multiplying the measured current and voltage, and then the energy parameter is obtained. Using this smart energy meter, we obtain our desired parameters with sufficient accuracy of nearly 90 percent. These obtained parameters and results are directly uploaded to Amazon Web Server(AWS). We also develop an android app that connects with the AWS server. The designed system facilitates the users to perceive these electrical parameters on meter having built-in LCD display which shows all measured results including a number of units consumed, and billing information anywhere around the world. Finally, we develop a smart contract on Ethereum block chain which can transact the number of tokens according to the units sold or purchased by the users. The Consumer can set their selling rate through the app. Any user with this app is able to take their readings live to their smart phone.
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基于区块链的智能电网能源转移平台设计:区块链能源转移平台
在这篇论文中,我们介绍了我们的研究,即居民相互购买和销售当地生产的可再生能源。在这项研究工作中,我们集成了区块链技术,为分布式能源创建对等市场。首先,我们使用智能电能表来测量电能的各种重要参数。在这项拟议的工作中,由于霍尔效应传感器的准确性,电流的初始测量是在其帮助下进行的。其次,借助变压器和直流偏置方法计算电源电压。表观功率是通过将测量的电流和电压相乘来计算的,然后获得能量参数。使用这款智能电表,我们可以获得所需的参数,准确率接近90%。这些获得的参数和结果被直接上传到亚马逊网络服务器(AWS)。我们还开发了一个与AWS服务器连接的android应用程序。所设计的系统便于用户在具有内置LCD显示器的仪表上感知这些电气参数,该显示器显示所有测量结果,包括消耗的单位数量,以及世界各地的计费信息。最后,我们在以太坊区块链上开发了一个智能合约,可以根据用户出售或购买的代币数量进行交易。消费者可以通过应用程序设置他们的销售价格。任何使用该应用程序的用户都可以在智能手机上实时读取读数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
TECCIENCIA
TECCIENCIA ENGINEERING, MULTIDISCIPLINARY-
自引率
66.70%
发文量
20
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