Rancang Bangun Modul Pembangkit Busur Api Listrik Seri yang Terintegrasi

Hakim, Muhammad Dani Faiqul (2023) Rancang Bangun Modul Pembangkit Busur Api Listrik Seri yang Terintegrasi. Other thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Pada studi ini dilakukan pembuatan modul simulator arcing seri yang selanjutnya diintegrasikan dengan alat-alat pengukuran. Di mana alat pengukuran berupa NI DAQ dan kamera thermal dihubungkan pada satu interface di software LabView. Adapun data yang diambil pada studi ini berupa data arus arcing, tegangan arcing, suhu, dan akustik ketika arcing terjadi. Untuk pengambilan data akustik dilakukan secara terpisah melalui acoustic imager secara langsung. Data tegangan dan arus yang telah didapatkan digunakan untuk menghitung nilai daya dan energi yang dihasilkan ketika arcing melalui software DiAdem. Pada studi ini dilakukan dalam dua kondisi, di mana untuk kondisi pertama dilakukan simulasi arcing continuous selama 60 detik hingga 180 detik. Sedangkan untuk kondisi kedua dilakukan arcing gap yang bertujuan untuk mengukur jarak sela antar elektroda ketika spark arcing pertama terjadi. Pada setiap kondisi dilakukan sebanyak 48 iterasi sehingga pada studi ini terdapat total sebanyak 96 data. Variasi yang dilakukan pada studi ini yaitu pada jumlah beban. Dari data yang didapatkan akan dilihat perubahan karakteristik terhadap variasi yang telah ditentukan. Di mana pada studi ini telah berhasil mengintegrasi modul simulator arcing seri dengan alat pengukuran. Adapun kesimpulan karakterisasi yang didapat yaitu kenaikan jumlah beban berbanding lurus terhadap kenaikan nilai arus, energi, suhu, dan akustik, Selain itu juga didapatkan hasil bahwa nilai energi yang dihasilkan ketika arcing berbanding lurus dengan suhu dan akustik.
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In this study, a serial arcing simulator module was created which was then integrated with measurement tools. Where the measurement tools in the form of NI DAQ and thermal cameras are connected to one interface in the LabView software. The data taken in this study are arcing current, arcing voltage, temperature, and acoustic data when arcing occurs. Acoustic data collection is carried out separately through an acoustic imager directly. The voltage and current data that has been obtained is used to calculate the power and energy values generated when arcing through the DiAdem software. This study was carried out in two conditions, where for the first condition a continuous arcing simulation was carried out for 60 seconds to 180 seconds. Whereas for the second condition, an arcing gap is carried out which aims to measure the distance between the electrodes when the first arcing spark occurs. In each condition, 48 iterations were carried out so that in this study there were a total of 96 data. Variations made in this study are the amount of load. From the data obtained will be seen changes in characteristics of the variations that have been determined. Where in this study has succeeded in integrating the serial arcing simulator module with measurement tools. The characterization conclusions obtained are that the increase in the amount of load is directly proportional to the increase in current, energy, temperature, and acoustic values. In addition, the results also show that the energy value generated when arcing is directly proportional to the temperature and acoustic

Item Type:	Thesis (Other)
Uncontrolled Keywords:	Akuisisi Data, Arcing Seri, Integrasi, Modul Pembangkit, Penginderaan, Data Acquisition, Generation Modules, Integration, Sensing, Series Arcing
Subjects:	T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK152.A75 Electrical engineering--Safety measures T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK531 Current and voltage waveforms
Divisions:	Faculty of Intelligent Electrical and Informatics Technology (ELECTICS) > Electrical Engineering > 20201-(S1) Undergraduate Thesis
Depositing User:	Muhammad Dani Faiqul Hakim
Date Deposited:	17 Jan 2024 01:05
Last Modified:	17 Jan 2024 01:05
URI:	http://repository.its.ac.id/id/eprint/105506

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