WAPFI (Wahana Pendidikan Fisika)
Vol 6, No 1 (2021): WaPFi (Wahana Pendidikan Fisika) Februari 2021

Pengembangan Alat Praktikum Konduktivitas Termal Zat Cair pada Geometri Silinder Berbasis Sensor Suhu

Sabana Asmi (SCOPUS ID: 57191537500, Subject Area: Physics Education, Universitas Pendidikan Indonesia)
Sukirman Sukirman (Universitas Negeri Semarang)
Supriyadi Supriyadi (Universitas Negeri Semarang)
Sulhadi Sulhadi (Universitas Negeri Semarang)

Article Info

Publish Date
26 Feb 2021

Abstract

Praktikum untuk menentukan nilai konduktivitas termal zat cair pada geometri silinder masih jarang dilakukan. Tujuan penelitian ini yaitu merancang alat praktikum konduktivitas termal zat cair pada geometri silinder berbasis sensor suhu. Alat praktikum yang dirancang terdiri dari (1) tabung isolator berbentuk silinder, (2) elemen pemanas berbentuk silinder, (3) sumber tegangan AC, (4) sensor suhu digital, dan (5) material cair yang akan diukur nilai konduktivitas termalnya. Data profil distribusi temperatur yang diperoleh kemudian digunakan untuk menghitung nilai konduktivitas termal zat cair. Adapun nilai konduktivitas termal air pada suhu ruang 31°C diukur menggunakan alat praktikum yang dikembangkan yaitu 0.60 Wm-1K-1. Berdasarkan hasil penelitian, dapat disimpulkan bahwa alat praktikum konduktivitas termal zat cair pada geometri silinder yang dikembangkan tidak dapat secara langsung mengukur nilai konduktivitas termal zat cair. Namun, alat praktikum yang dikembangkan dapat mengukur secara langsung profil distribusi temperatur zat cair pada geometri silinder. Kata kunci : geometri silinder, konduktivitas termal, praktikum, sensor suhu, zat cair ABSTRACT Practicum to determine the value of  thermal conductivity of liquid in cylinder geometry is still rarely done. The purpose of this research is to design a liquid thermal conductivity practicum instrument on a temperature sensor-based cylinder geometry. The practicum instrument that is designed consists of (1) a cylindrical insulator tube, (2) a cylindrical heating element, (3) an AC voltage source, (4) a digital temperature sensor, and (5) a liquid material for which the thermal conductivity value will be measured. The temperature distribution profile data obtained are then used to calculate the value of the thermal conductivity of the liquid. The value of the thermal conductivity of water at room temperature of 31°C was measured using the developed practicum instrument is 0.60 Wm-1K-1. Based on the research results, it can be concluded that the liquid thermal conductivity practicum instrument in the cylinder geometry that was developed cannot directly measure the value of the thermal conductivity of the liquid. However, the developed practicum instrument can directly measure the temperature distribution profile of the liquid in the cylinder geometry.  Kata kunci : cylinder geometry, liquid, practicum, temperature sensor, thermal conductivity

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Journal Info
WAPFI (Wahana Pendidikan Fisika)
Website

Abbrev

WaPFi

Publisher

Universitas Pendidikan Indonesia

Subject

Education Physics Social Sciences Other

Description

The below mentioned areas are just indicative. The editorial board also welcomes innovative articles that redefine any Science, especially Physics and Technology Education field. Earth Science and Education Basic Science in Physics Education New Technologies in Physics Education Research and ...