Design of Alternative Energy Using Thermoelectricity by Utilizing a Dispenser Heat Tank Using IOT

Authors

  • Legenda Prameswono Pratama Electrical Engineering Department, Jakarta Global University, Jakarta, Indonesia
  • Sinka Wilyanti Electrical Engineering Department, Jakarta Global University, Jakarta, Indonesia
  • Adi Setiawan Electrical Engineering Department, Jakarta Global University, Jakarta, Indonesia
  • Hamzah Hamzah Electrical Engineering Department, Jakarta Global University, Jakarta, Indonesia
  • Mauludi Manfaluthy Electrical Engineering Department, Jakarta Global University, Jakarta, Indonesia
  • Yanuar Zulardiansyah Arief Electrical Engineering Department, Jakarta Global University, Jakarta, Indonesia
  • Safaa Najah Saud Al-Humairi Faculty of Information Sciences & Engineering, Management and Science University, Shah, Malaysia

DOI:

https://doi.org/10.32497/eksergi.v20i02.5805

Keywords:

Thermal Electric Generator, Alternative Energy, Micro Power Plant, Micro Energy Harvester.

Abstract

Energy is an object that can move through essential
reactions; increasing population growth is one of the factors for
increasing energy needs. One of the initiatives initiated was the
creation of a Thermal Electric Generator (TEG). The formulation
of the problem in this study is to determine the output voltage,
current, and power generated by the thermoelectric as an
alternative energy and to determine the effect of temperature on
the thermoelectric. The goal is to determine the amount of output
the thermoelectric generates when it gets a heat source from the
dispenser. The data source in this study was obtained from testing
the tools made. The test results show the effect of temperature on
the thermoelectric tested for 120
th
minutes test of max 5.96 Volts
with a water temperature in the dispenser tank of 73
C without
using a step up using six pieces of thermoelectric arranged in
series.

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Published

2024-05-05

Issue

Vol. 20 No. 02 (2024): MAY 2024

Section

Articles

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