ANALYSIS OF THERMOELECTRIC POTENTIAL SP1848-27145 SA AS A POWER PLANT WITH UTILIZING THE HEAT ENERGY OF COMBUSTION

Q3 Mathematics

Indonesian Journal of Electrical Engineering and Informatics Pub Date : 2023-08-19 DOI:10.59562/jeeni.v1i1.419

Haripuddin Haripuddin, Muhammad Irfan, Iwan Suhardi

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Abstract

This research is experimental and aims to determine the characteristics of the SP1848-27145SA generator thermoelectric module in the form of power generated and its performance as a power plant by utilizing heat energy from a combustion furnace. The method used in testing the thermoelectric characteristics of the generator is a direct experimental method by measuring the output voltage, current, hot side, and cold side of the thermoelectric and the power generated by the module attached to the combustion furnace. Thermoelectric testing of the SP1848-27145 SA generator as a power plant by utilizing heat energy from a combustion furnace with a maximum voltage generated electronic device load of 2.25 Volts at ΔT 46°C and a maximum generated power of 0.09 watt. The thermoelectric performance of the SP1848-27145 SA generator is obtained in three different configurations: single, series, and parallel. The highest thermoelectric power produced is in the series configuration, where the power obtained is 0.25 watts, while the results from the parallel arrangement have the same power value. very small, namely 0.02 watts, and the highest efficiency value only reaches 3.40%.

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sp1848 - 27145sa作为燃烧热能发电厂的热电势分析

本研究是实验性的，旨在确定SP1848-27145SA发电机热电模块在发电形式上的特性，以及利用燃烧炉热能作为发电厂的性能。测试发电机热电特性所采用的方法是直接实验法，通过测量热电的输出电压、电流、热侧、冷侧以及附加在燃烧炉上的模块所产生的功率。SP1848-27145 SA发电机作为发电厂的热电测试，利用燃烧炉的热能，在ΔT 46°C下产生电子设备负载的最大电压为2.25伏，最大产生功率为0.09瓦。SP1848-27145 SA发电机的热电性能在三种不同的配置下得到:单，串联和并联。产生的最高热电功率在串联配置中，获得的功率为0.25瓦，而并联配置的结果具有相同的功率值。非常小，即0.02瓦，最高效率值仅达到3.40%。

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来源期刊

Indonesian Journal of Electrical Engineering and Informatics Computer Science-Computer Science (miscellaneous)

CiteScore

1.50

自引率

0.00%

发文量

期刊介绍： The journal publishes original papers in the field of electrical, computer and informatics engineering which covers, but not limited to, the following scope: Electronics: Electronic Materials, Microelectronic System, Design and Implementation of Application Specific Integrated Circuits (ASIC), VLSI Design, System-on-a-Chip (SoC) and Electronic Instrumentation Using CAD Tools, digital signal & data Processing, , Biomedical Transducers and instrumentation. Electrical: Electrical Engineering Materials, Electric Power Generation, Transmission and Distribution, Power Electronics, Power Quality, Power Economic, FACTS, Renewable Energy, Electric Traction. Telecommunication: Modulation and Signal Processing for Telecommunication, Information Theory and Coding, Antenna and Wave Propagation, Wireless and Mobile Communications, Radio Communication, Communication Electronics and Microwave, Radar Imaging. Control: Optimal, Robust and Adaptive Controls, Non Linear and Stochastic Controls, Modeling and Identification, Robotics, Image Based Control, Hybrid and Switching Control, Process Optimization and Scheduling, Control and Intelligent Systems. Computer and Informatics: Computer Architecture, Parallel and Distributed Computer, Pervasive Computing, Computer Network, Embedded System, Human—Computer Interaction, Virtual/Augmented Reality, Computer Security, Software Engineering (Software: Lifecycle, Management, Engineering Process, Engineering Tools and Methods), Programming (Programming Methodology and Paradigm), Data Engineering (Data and Knowledge level Modeling, Information Management (DB) practices, Knowledge Based Management System, Knowledge Discovery in Data).