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All Journal JISTECH: Journal of Information Science and Technology IGKOJEI: Jurnal Pengabdian Masyarakat Journal of Innovation Materials, Energy, and Sustainable Engineering
Sarungallo, Pandung
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Design a prototype of a marine wave power plant (PLTGL) using a recoil starter Lesnussa, Henny; Farhan, Fauzi; Patiran, Abdul Z.; Rehiara, Adelhard Beni; Sarungallo, Pandung; Rumengan, Yanty
Journal of Innovation Materials, Energy, and Sustainable Engineering Vol. 1 No. 1: (July) 2023
Publisher : Institute for Advanced Science Social, and Sustainable Future

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61511/jimese.v1i1.2023.37

Abstract

As the needs of human life increase, the need for electrical energy will also increase. Currently, fossil energy, which is widely used as fuel for the provision of electrical energy, is running low. In Indonesia, renewable energy sources have not been utilized properly, such as wave energy. This study discussed how to design a prototype of a sea wave power plant. The problem is, how to be able to utilize the energy of sea waves to the maximum. The purpose of this research is to find solutions and designs to utilize recoil starter as a prototype of ocean wave power plants. The methodology used in this study is an experiment in which the prototype made is given a certain treatment and then measurements are made. His data analysis technique is descriptive analysis. Based on the results of measurements and observations, the performance of the tool is not only influenced by the height of the wave, but also the period of arrival of the sea wave and the ballast load of the tool. After measurements were made on the first day of Maruni beach, the prototype could produce an average power of 4.21 watts for an average wave height of 0.35 cm and Maruni beach on the second day could produce an average power of 5.68 watts for an average wave height of 0.4 m. While on the first day Amban beach obtained an average power of 3.29 watts for an average wave height of 0.37 cm and Amban beach on the second day could produce an average power of 14.26 watts for an average wave height of 0.5 m.
Peningkatan pengetahuan tentang energi terbarukan di Kampung Kwau: Improving Knowledge about Renewable Energy in Kwau Village Rehiara, Adelhard Beni; Lesnussa, Henny A. B.; Likumahwa, Fervin M.; Marini, Sonya O.; Patiran, Abdul Z.; Stepanus, Jamius B.; Palintin , Antonius D.; Pasalli, Yulianus R.; Ismail, Saiful; Sarungallo, Pandung; Wihyawari, Bibiana R.
IGKOJEI: Jurnal Pengabdian Masyarakat Vol. 6 No. 4 (2025): IGKOJEI: Jurnal Pengabdian Masyarakat
Publisher : Fakultas Peternakan Universitas Papua

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46549/igkojei.v6i4.568

Abstract

ABSTRACT  The Community Service Program (PkM) is an annual initiative consistently conducted by the Faculty of Engineering at the University of Papua. In 2025, the program was carried out in Kampung Kwau, Warmare District, Manokwari Regency, West Papua Province, with the primary objective of enhancing local community understanding and skills in utilizing renewable energy, particularly through the use of energy-efficient solar lamps (LTSHE). The program began with presentations on the potential and benefits of renewable energy, followed by hands-on training in the maintenance and repair of LTSHE units. During the practical sessions, participants were introduced to techniques for replacing damaged batteries, cleaning solar panels, and understanding the basic operational system of the LTSHE devices. Despite challenges such as limited tools and varying levels of participant knowledge, the activity was met with enthusiastic responses. This program is expected to promote the sustainable use of environmentally friendly energy in Kampung Kwau.  Keywords: Renewable Energy; Kampung Kwau; LTSHE; Community Service; Solar Power.   ABSTRAK  Pengabdian kepada masyarakat (PkM) merupakan program tahunan yang secara konsisten dilaksanakan oleh Fakultas Teknik Universitas Papua. Pada tahun 2025, kegiatan ini berlokasi di Kampung Kwau, Distrik Warmare, Kabupaten Manokwari, Provinsi Papua Barat, dengan tujuan utama meningkatkan pemahaman dan keterampilan masyarakat dalam pemanfaatan energi terbarukan, khususnya melalui penggunaan lampu tenaga surya hemat energi (LTSHE). Rangkaian kegiatan diawali dengan penyampaian materi mengenai potensi dan manfaat energi terbarukan, kemudian dilanjutkan dengan pelatihan praktik pemeliharaan dan perbaikan LTSHE. Dalam sesi praktik, peserta diperkenalkan pada teknik penggantian baterai yang rusak, pembersihan panel surya, serta pemahaman dasar mengenai sistem kerja perangkat LTSHE. Meskipun terdapat kendala seperti keterbatasan alat dan variasi tingkat pemahaman peserta, kegiatan ini mendapat sambutan yang sangat positif. Program ini diharapkan dapat mendorong pemanfaatan energi ramah lingkungan secara berkelanjutan di Kampung Kwau dan menjadi model yang dapat direplikasi di wilayah lain. Kata kunci: Energi Terbarukan; Kampung Kwau; LTSHE; PkM; Tenaga Surya.
Perancangan PLTS Atap di Gedung Fakultas Teknik Universitas Papua Menggunakan Software PVSyst dan Easysolar: Designing a Rooftop Solar Power Plant at the Faculty of Engineering University of Papua using PVSyst and EasySolar Software Kual, Martinus; Palintin, Antonius D.; Sarungallo, Pandung
JISTECH: Journal of Information Science and Technology Vol 11 No 2 (2022): Oktober 2022
Publisher : Universitas Papua

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30862/jistech.v11i2.114

Abstract

Electrical energy used in Manokwari, West Papua, is still dominated by fossil energy sources. One of the efforts to reduce the use of fossil energy is to utilize potential renewable energy sources in Manokwari. One of these sources is solar energy with irradiation of 4,859 kWh/m²/day. Rooftop PV is one application of the use of solar energy. In this study, the design of the rooftop solar power plant in the Faculty of Engineering, University of Papua was simulated using EasySolar and PVSyst software. With an azimuth angle of 36°, a roof slope of 35°, a roof area of 1,184.94 m², and an installed power of 66 kWp, it takes 220 panels with a capacity of 300 Wp, 2 inverters with a capacity of 33.3 kW. The layout of PV module on the rooftop is simulated using EasySolar software resulting a total of 220 modules on required a roof area of 594 m². In the simulation output using PVsyst software, it is obtained 99.07 MWh per year and the percentage of savings per year is 102.5%.
Analisis Perbandingan Lampu LED dan Halogen pada AFL (Airfield Lighting System) Bandar Udara Rendani Manokwari: Analysis of LED and Halogen Lights Comparisonat AFL (Airfield Lighting System) Rendani Manokwari Airport Ramadhan , Riyanto Fajrul; Sarungallo, Pandung; Pramanegara , Rio O.
JISTECH: Journal of Information Science and Technology Vol 14 No 1 (2025): Volume 14 Nomor 1 Tahun 2025
Publisher : Universitas Papua

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30862/jistech.v14i1.711

Abstract

The AFL (Airfield Lighting System) is a crucial part of the airport infrastructure that plays an important role in supporting aircraft operations. Using LED type lights allows for more efficient energy use and has a longer service life. Of course this would be an effective solution to dealing with energy waste. In this study this time will discuss the comparison of light intensity, and comparison efficiency of electric energy use of LED lamps with halogen lamps at Manokwari Rendani Airport, and Comparison of the cost of electricity consumer of LED light to halogen light at Manokwari rendani Airport. The power of the halogen lamps is 2.239.25 cd, while the light of the LED lamps with a reflection factor of 0.98 is 6.539.05 cd. This results in a threefold comparison between the alpha taxiway and the bravo taxiway. The use of halogen lights costs Rp. 3.557.429,28 per year, whereas the use of LED lights requires electricity costs of Rp 1.185.809,76 per year. You can see that the use of bravo taxiway lamps with LED type is more efficient in terms of energy consumption, light intensity and cost effectiveness compared to alpha taxiway lights with halogen type
Co-Authors Adelhard Beni Rehiara, Adelhard Beni Farhan, Fauzi Ismail, Saiful Kual, Martinus Lesnussa, Henny Lesnussa, Henny A. B. Likumahwa, Fervin M. Marini, Sonya O. Palintin , Antonius D. Palintin, Antonius D. Pasalli, Yulianus R. Patiran, Abdul Z. Pramanegara , Rio O. Ramadhan , Riyanto Fajrul Rumengan, Yanty Stepanus, Jamius B. Wihyawari, Bibiana R.