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All Journal ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika Journal of Applied Electrical Engineering Jurnal Abdi Masyarakat Indonesia JATAED: Journal of Appropriate Technology for Agriculture, Environment, and Development
Atabiq, Fauzun
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Humanities Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Mechanical Engineering Public Health

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Analisa Performa Turbin Gas Unit 1 pada Pembangkit Listrik Tenaga Gas PT A Kepri Jon, Rahmat Novri; Atabiq, Fauzun
Journal of Applied Electrical Engineering Vol 7 No 2 (2023): JAEE, December 2023
Publisher : Politeknik Negeri Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30871/jaee.v7i2.5966

Abstract

Abstract—The research in this final project is focused on analyzing ther performance of gas turbines. The gas turbine power plant is analyzed using the technical data of the plant. The data used in this study were obtained from the PLTG PT A Kepri. The research methodology is based on qualitative and quantitative research. The result of the analysis in this study are for a period of six months (April-September) 2022. This study shows that 87% of the expected capacity is available in the period studied. Plant Thermal effeciency ranged from 23% to 28%, Plant Capacity Factor ranged from 61% to 81%, and plant reliability ranged from 46% to 100% (averange 75,5%). For the period studied only 27 MW of power was lost from the expected power of 210 MW. In this study, the gas turbine performance parameter analyzed at PLTG PT A Kepri are within the best industry practice range.
Pengaruh Beban Gas Turbine Generator terhadap Efisiensi Heat Recovery Steam Generator pada Pembangkit Listrik Tenaga Gas Uap (PLTGU) SUGANDI, BUDI; ATABIQ, FAUZUN; ASTI, RIFKA ADELIA
ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika Vol 11, No 3: Published July 2023
Publisher : Institut Teknologi Nasional, Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26760/elkomika.v11i3.639

Abstract

ABSTRAKPembangkit Listrik Tenaga Gas Uap (PLTGU) merupakan kombinasi Pembangkit Listrik Tenaga Gas (PLTG) dan Pembangkit Listrik Tenaga Uap (PLTU). Kombinasi ini menggunakan sistem combine cycle power plant. Untuk meningkatkan efisiensi pembangkit, PLTGU memanfaatkan panas gas buang turbin untuk memanaskanair pada  pipa-pipa Heat Recovery Steam Generator (HRSG) menjadi uap yang digunakan untuk menggerakkan bilah-bilah turbin uap dan memutar generator guna menghasilkan energi listrik. Artikel ini membahas pengaruh beban terhadap efisiensi HRSG. Pengamatan dilakukan selama 24 jam selama beberapa hari. Hasil penelitian menunjukkan bahwa efisiensi rata-rata HRSG selama periode tersebut adalah 65% dengan beban rata-rata 28184 kW. Efisiensi tertinggi HRSG dicapai pada saat beban 25957 kW yaitu 75.14%. sedangkan efisiensi terendah saat beban 30127 kW yaitu 56.77%. Koefisien korelasi diperoleh sebesar –0.7 yang berarti pengaruh beban terhadap efisiensi kuat dan berbanding terbalik. Nilai R Square menunjukkan pengaruh pembebanan terhadap efisiensi HRSG yaitu 48.23 %.Kata kunci: PLTGU, efisiensi HRSG, koefisien korelasi, combine cycle power plant ABSTRACTSteam Gas Power Plant (PLTGU) is a combination of Gas Power Plant (PLTG) and Steam Power Plant (PLTU). This combination is called combine cycle power plant. To increase generator efficiency, PLTGU utilizes heat from turbine exhaust gas to heat water in the Heat Recovery Steam Generator (HRSG) tubing into steam, which is used to drive the steam turbine blades and rotate the generator to produce electricity. This research analyzes effect of load on efficiency of HRSG. The results showed that the average HRSG efficiency during that period was 65 % with an average load of 28184 kW. The highest HRSG efficiency is 75.14% when the load is 25957 kW while the lowest is 56.77% when the load 30127 kW. The correlation is obtained -0.7 that showed the effect of load to the efficiency is strong and inversely proportional. The R Square showed effect of load on HRSG efficiency is 48.23%.Keywords: PLTGU, efficiency of HRSG, correlation coefficient, combine cycle power plant
Penerapan Alat Celup Batik Bertenaga Surya untuk Optimasi Hasil Produksi pada Pengrajin Batik Konvensional Yusiran, Yusiran; Atabiq, Fauzun; Pangestu, Syukur Dwi Febri
Jurnal Abdi Masyarakat Indonesia Vol 5 No 3 (2025): JAMSI - Mei 2025
Publisher : CV Firmos

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54082/jamsi.1870

Abstract

Pada saat ini para pengrajin batik tradisional, masih menggunakan metode manual dalam memberikan warna pada batik  yakni dengan mencelup-celupkan kain ke dalam wadah yang berisi cairan berwarna. Proses pencelupan ini membutuhkan tenaga dan gerak yang berulang sehingga dapat menyebabkan kelelahan pada manusia, bahkan hal ini juga berdampak pada kualitas produksi batin dimana hasil celupan seringkali tidak merata. Berdasarkan permasalahan tersebut diajukan pengembangan prototipe alat pencelup kain batik. Alat ini dirancang untuk secara mencelupkan kain ke dalam pewarna sesuai dengan pola yang telah ditentukan sebelumnya sehingga dapat membantu meningkatkan efisiensi produksi dan memastikan konsistensi dalam warna serta dapat mengurangi kelelahan pengrajin batik. Sistem pembangkit listrik tenaga surya diintegrasikan dengan alat celup batik untuk mengurangi pemakaian listrik PLN sehingga alat ini ramah lingkungan karena tidak menghasilkan emisi gas karbon. Berdasarkan uji awal, alat celup batik bertenaga surya ini mampu meningkatkan hasil produksi sebesar 50%, menghemat pemakaian energi listrik hingga 1,2 kWh, dan menghasilkan warna kain celupan yang lebih merata dan konsisten. Dengan desain sederhana dan mudah dioperasikan, alat ini berpotensi diadopsi secara luas, terutama di wilayah dengan keterbatasan listrik, serta menjadi langkah konkret dalam penerapan energi terbarukan pada industri kreatif berbasis budaya.
Designing an IoT-based footstep counter for sports shoes Aditya, Vikra; Atabiq, Fauzun; Jannah, Dina Miftahul; Harahap, Muhammad Khoiruddin; Ilham, Dirja Nur
JATAED: Journal of Appropriate Technology for Agriculture, Environment, and Development Vol. 1 No. 1 (2023): JATAED: Journal of Appropriate Technology for Agriculture, Environment, and Dev
Publisher : LEMBAGA KAJIAN PEMBANGUNAN PERTANIAN DAN LINGKUNGAN (LKPPL)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62671/jataed.v1i1.2

Abstract

Shoes are general footwear that can be used when exercising, working, formal events, or just to sweeten your appearance. Shoes used for sports have a slightly different shape from shoes in general, in terms of covering the left and right sides, the base, and the design, but most shoes do not have a device to count the steps taken. To overcome this, researchers have created a tool in shoes that can count the user's footsteps while exercising. A step counter on shoes based on the internet of things uses NodeMCU and an IR sensor which functions to detect every step of the shoe wearer. The result of the detected step count will be displayed in the blynk application. NodeMCU and IR sensors will be connected to the Blynk application using the internet network. When the step counter on the shoe and the hotspot are turned on, the results of the foot count will appear on the Blynk application on the smartphone. Footstep data detected by the IR sensor corresponds to the number of steps counted manually. The test results from a 150-meter step counter, obtained results of 207 steps in 3 minutes when walking casually, 223 steps in 1 minute 30 seconds when walking fast, and 264 steps when running in a period of 1 minute 15 seconds.
Co-Authors Aditya, Vikra ASTI, RIFKA ADELIA Ilham, Dirja Nur Jannah, Dina Miftahul Jon, Rahmat Novri Muhammad Khoiruddin Harahap Pangestu, Syukur Dwi Febri Sugandi, Budi Yusiran Yusiran, Yusiran