Rancang Bangun Simulator Sistem Perpindahan Panas ke Listrik pada Prototype Thermoelectric Generator Berbasis Internet of Things

Budiman, Prayogo (2023) Rancang Bangun Simulator Sistem Perpindahan Panas ke Listrik pada Prototype Thermoelectric Generator Berbasis Internet of Things. Other thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Thermoelectric Generator merupakan suatu pembangkit listrik berskala kecil yang bekerja berdasarkan efek Seebeck. Prinsip kerja dari efek seebeck adalah jika terdapat dua buah material yaitu semi Colling plate dan Hot plate dengan temperature yang berbeda maka di dalam material tersebut akan mengalirkan arus listrik. Untuk itu penelitian mencoba menganalisis pengaruh perbedaan temperature antara hot plate dengan cooling plate terhadap energi listrik dengan memanfaatkan elemen panas yaitu Heater PTC 200 dan sumber dingin dan juga, untuk memudahkan dalam melakukan monitoring dilengkapi dengan Internet of Things(IoT). Konsep dari IoT mempunyai kemampuan untuk mengirim data secara otomatis melalui jaringan, meningkatkan kualitas alat kerja dan mampu memantau alat yang dibuat dari jarak jauh.IoT yang digunakan menggunakan Software sebagai monitoring dan modul Node MCU ESP 8266 sebagai kontrol dan membaca perbedaan temperature pada kedua plate, dengan adanya IoT dapat mengetahui, membaca dan mengkontrol dari perbedaan selisih temperature, dan tegangan keluaran DC sebesar 5V pada prototype Thermoelectric Generator.
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Thermoelectric Generator is a small power generator that works based on the Seebeck effect. The working principle of the Seebeck effect is that if there are two materials, namely a semi-colling plate and a hot plate, with different temperatures, an electric current will flow inside these materials. For this reason, the study tries to analyze the effect of the temperature difference between the hot plate and the cooling plate on electrical energy by utilizing a heat element, namely Heater PTC 200 and a cold source and also, to facilitate monitoring, it is equipped with the Internet of Things (IoT). The concept of IoT has the ability to send data automatically over the network, improve the quality of work tools and be able to integrate tools that are made remotely. The IoT used uses Blynk as monitoring and the NodeMCU ESP 8266 module as a control and reads the temperature difference on the two plates, with the IoT being able to know, read and control the temperature difference, and the DC output voltage on the Thermoelectric Generator prototype

Item Type:	Thesis (Other)
Uncontrolled Keywords:	Thermoelectric Generator, Internet of Things, Temperature Thermoelectric Generator, Internet of Things, Temperature
Subjects:	Q Science > QC Physics > QC271 Temperature measurements
Divisions:	Faculty of Vocational > Instrumentation Engineering
Depositing User:	Prayogo budiman
Date Deposited:	11 Aug 2023 08:49
Last Modified:	11 Aug 2023 08:50
URI:	http://repository.its.ac.id/id/eprint/104639

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