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All Journal Jurnal Teknik Pertanian Lampung (Journal of Agricultural Engineering) Jurnal Pengabdian Masyarakat As-salam JESCEE- Journal of Emerging Supply Chain, Clean Energy, and Process Engineering Journal Geuthee of Engineering and Energy PESARE: Science and Engineering Service Journal Jurnal Pengabdian Rekayasa dan Wirausaha
Syukriyadin, Syukriyadin
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DAMPAK MEDAN MAGNET PEMBANGUNAN JARINGAN LISTRIK PLTA LUTEUNG 16 MW TERHADAP KESEHATAN MASYARAKAT Syukri, Mahdi; Syukriyadin, Syukriyadin; Alfisyahrin, Alfisyahrin; Siregar, Ramdhan Halid; Iqbar, Iqbar
JPMA - Jurnal Pengabdian Masyarakat As-Salam Vol. 3 No. 2 (2023): Jurnal Pengabdian Masyarakat As-Salam (JPMA)
Publisher : Asosiasi Dosen Perguruan Tinggi Islam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37249/jpma.v3i2.693

Abstract

Salah satu tulang punggung penyaluran energi listrik dari pusat pembangkit ke beban adalah jaringan listrik saluran udara tegangan tinggi (SUTT) dan saluran udara tegangan menengah (SUTM). Pembangunan jaringan listrik SUTT dan SUTM tidak luput dari dampak yang ditimbulkan kepada masyarakat akibat adanya paparan medan magnet yang ditimbulkan pada jaringan. Keberadaan pembangunan jaringan SUTT dan SUTM yang menghubungkan jaringan tersebut ke pembangkit listrik tenaga air PLTA Luteung 16 MW menimbulkan kekhawatiran dampak kesehatan kepada masyarakat. Oleh karena itu pelaksanaan pengabdian ini bertujuan untuk melihat potensi medan magnet yang ditimbulkan jaringan SUTT dan SUTM yang melintas di desa Luteung. Dari hasil pengukuran dibawah jaringan SUTT pada koordinat N 04o 52’ 02.49” dan E 96o 05’ 06.15” diperoleh kuat medan magnet sebesar 1.57 ?T dan jaringan SUTM pada koordinat N 04o 52’14.77” dan E 96o 05’ 11.34” diperoleh kuat medan magnet sebesar 0 ?T. Berdasarkan Standar Nasional Indonesia SNI 04-6950-2003 dapat disimpulkan kuat medan magnet yang terukur masih dibawah ambang batas 25 mT sehingga dapat dinyatakan bahwa medan  magnet yang ditimbulkan  pada SUTT dan SUTM yang melintas di desa Luteung masih dalam taraf aman bagi kesehatan masyarakat Luteung.
Instalasi Pembangkit Listrik Tenaga Surya (PLTS) sebagai Sumber Energi Listrik Pada BUMDes Air Isi Ulang Desa Nosar Kabupaten Aceh Tengah Alfisyahrin, Alfisyahrin; Zalmi, Zalmi; BC, Alfiansyah Yulianur; Syukriyadin, Syukriyadin
PESARE: Jurnal Pengabdian Sains dan Rekayasa Vol 3, No 1 (2025): Februari 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/pesare.v3i1.43981

Abstract

This community service program aims to provide a sustainable energy solution through the installation of a Solar Power Plant (PLTS) for the Refill Water Village-Owned Enterprise (BUMDes) in Nosar Village, Central Aceh Regency. The program addresses high operational costs caused by dependence on conventional electricity. The implementation method involves systematic stages, including needs identification, community organization, technical training, PLTS installation, and initial monitoring and evaluation. The results show significant positive impacts, including reduced operational costs for BUMDes, increased energy independence, and the transfer of technical knowledge to the community. BUMDes managers now possess the capability to operate and maintain the PLTS system independently, ensuring the program's sustainability over the long term. Activities such as training sessions, installations, and system trials were thoroughly documented to strengthen the program's validity. By adopting a participatory and community-empowerment approach, this program delivers immediate benefits to its partners while establishing a replicable model for renewable energy development in other regions. The program demonstrates that technological solutions can serve as catalysts for sustainable economic and social change.
Simulation Study of a Single-Phase Induction Machine as a Water Pump System Utilizing Photovoltaic Faturiansyah, Elfin; Syukriyadin, Syukriyadin; Hafid, Hafid
Journal of Emerging Supply Chain, Clean Energy, and Process Engineering Vol 2 No 2 (2023): Journal of Emerging Supply Chain, Clean Energy and Process Engineering
Publisher : Universitas Pertamina

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.57102/jescee.v2i2.72

Abstract

This paper presents a simulation study of using a single-phase induction machine as a solar PV powered water pump system equipped with Maximum Power Point Tracking (MPPT) on the boost converter. Inverters are used to convert DC voltage stored in batteries to drive single-phase induction machines. The simulation was carried out to analyze the system's performance in generating electrical power from solar panels and using it to operate the water pump. This research also considers variables such as fluctuations in sunlight intensity, as well as the dynamic response of induction machines and MPPT converters. From the simulation test results, it was found that the system as a whole will work well if it uses a radiation input that is more significant than 750 W/m2. The load in the form of a single-phase induction motor, which is inductive, influences variations in the output power produced by the solar PV at the boost converter.
Analisis Aliran Daya Dengan Beban Tidak Seimbang Pada Penyulang Teubeng Gardu Hubung Kota Sigli Menggunakan Software ETAP 16.0. Syukri, Mahdi; Fitrah, Nur Nuzulul; Syukriyadin, Syukriyadin; Alfisyahrin, Alfisyahrin
Journal Geuthee of Engineering and Energy Vol 1, No 1 (2022): Journal Geuthee of Engineering and Energy
Publisher : Geuthèë Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (407.437 KB) | DOI: 10.52626/joge.v1i1.6

Abstract

Penelitian ini bertujuan untuk melakukan komputasi perhitungan aliran daya dengan beban tidak seimbang pada jaringan distribusi dengan sistem radial. Kondisi beban yang tidak seimbang muncul di sisi sekunder dari transformator distribusi dikarenakan permintaan daya pada masing masing phasa tidak sama besar, hal ini disebabkan karena pemakaian beban oleh tiap pelanggan berbeda. Studi aliran Beban yang tidak seimbang pada sistem tenaga listrik akan berpengaruh pada konsumen yaitu akan terjadi penurunan tegangan yang diterima oleh konsumen. Suatu studi aliran beban dengan kondisi beban tak seimbang akan memberikan gambaran tentang kondisi tegangan, sudut fasa, arus, daya dan rugirugi daya tiap-tiap bus pada masing-masing fasa A, B dan C. Perhitungan aliran beban tak seimbang dengan menggunakan software ETAP versi 16.0.0 dengan objek penelitian jaringan distribusi sistem radial penyulang Teubeng gardu hubung Sigli Kota. Dari hasil simulasi pada penyulang Teubeng diperoleh beban pada phasa A sebesar 0.473 MW dan 0.313 MVAr, beban pada phasa B sebesar 0.503 MW dan 0.320 MVAr, sedangkan beban pada phasa C sebesar 0.483 MW 0.343 MVAr. Penyulang Teubeng mengalami penurunan tegangan terbesar pada bus DLM005- 00S yaitu sebesar 6.1%, 5.8% dan 6.9% untuk masing masing phasa A, B dan C.
Pembangkit Listrik Dengan Sistem Multihybrid dari Tenaga Fotovoltaik dan Mikrohidro Berbasis Fingerprint dan Internet of Thing (IoT) Roslidar, Roslidar; Irhamsyah, Muhammad; Sara, Ira Devi; Syukriyadin, Syukriyadin
Jurnal Pengabdian Rekayasa dan Wirausaha Vol 1, No 1 (2024)
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jprw.v1i1.36541

Abstract

Abstrak Pembangkit listrik yang berkelanjutan dan dapat diakses oleh masyarakat luas menjadi kunci untuk memenuhi kebutuhan energi global dan meningkatkan kesejahteraan masyarakat. Pelaksanaan pengabdian kepada masyarakat ini mengusulkan dan mengimplementasikan pembangkit listrik tenaga multihybrid yang mengintegrasikan sistem tenaga surya fotovolatik dan sistem tenaga air mikrohidro. Penambahan sistem keamanan berbasis fingerprint dan teknologi Internet of Things (IoT) menjadikan pembangkit multihybrid ini lebih aman dan dapat diatur penggunaan energi listriknya. Langkah-langkah dalam pengembangan sistem kelistrikan ini melibatkan pemilihan lokasi di Desa Bung Pageu, Kecamatan Blang Bintang Kab. Aceh Besar, perancangan sistem kelistrikan dan instalasi fotovoltaik dan pembangkit mikrohidro sesuai potensi air setempat, serta integrasi sistem keamanan dengan pengelolaan energi menggunakan teknologi fingerprint. Selain itu, sensor IoT diterapkan untuk pemantauan real-time dan pengendalian jarak jauh. Dengan menggabungkan beberapa teknologi dan partisipasi aktif masyarakat setempat, kegiatan ini memberikan solusi terhadap permasalahan energi dan pengetahuan baru terkait dengan implementasi sistem energi terbarukan dengan pendekatan multihybrid. Keberhasilan kegiatan ini memberikan kontribusi positif terhadap pembangunan berkelanjutan dan memberdayakan masyarakat untuk turut serta dalam pemanfaatan energi terbarukan secara berkesinambungan.Kata kunci: Energi Terbarukan, Pembangkit Tenaga Multihybrid, Fotvoltaic, Microhydro
Artificial Lighting System Design with PWM Control for the Growth of Kangkung Microgreen Fauzan, Muhammad; Syukriyadin, Syukriyadin; Helta, Fahri; Syahrizal, Syahrizal; Alfisyahrin, Alfisyahrin
Jurnal Teknik Pertanian Lampung (Journal of Agricultural Engineering) Vol. 13 No. 4 (2024): December 2024
Publisher : The University of Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jtep-l.v13i4.1249-1261

Abstract

Microgreen plants such as lettuce, spinach, and kangkung can be cultivated indoors, with artificial lighting like Light Emitting Diodes (LEDs) replacing sunlight. This study compared the growth of kangkung microgreens under artificial lighting using Pulse Width Modulation (PWM) versus without PWM. Two sample trays, each containing 50 grams of kangkung seeds, were placed 50 cm below the light. The first tray used PWM lighting, starting with a 65% duty cycle at 8 a.m, increasing to 100% by 12 p.m, and decreasing back to 65% by 4 p.m. The second tray received constant lighting without PWM. Results showed that PWM improved power efficiency from 16.3 W without PWM to 13.36 W with PWM. Growth of kangkung microgreens improved with PWM, evidenced by better stem length, leaf count, wet weight, stem diameter, petiole length, and leaf width, although single root length with PWM (9.68 cm) was slightly shorter than without PWM (9.98 cm).Base on statistical t-test results showed that there was a significant difference in stem length between lighting treatments using the PWM method and without using the PWM method, with a significance level of 5%. The study successfully developed an automated lighting control system using PWM that enhances plant growth. Keywords: Artificial lighting, Indoor farming, Kangkung, Microgreen, Pulse wave modulation.
Design of hybrid solar and pyco hydro power plant using water reservoir tank Muttaqin, Asyrofi; Syukriyadin, Syukriyadin; Syahrizal, Syahrizal; Alfisyahrin, Alfisyahrin; Helta, Fahri
Journal Geuthee of Engineering and Energy Vol 3, No 1 (2024): Journal Geuthee of Engineering and Energy
Publisher : Geuthèë Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52626/joge.v3i1.37

Abstract

The energy contained in the flow of water from the tank can be utilized as an additional source of electrical energy, namely by making a Pico Hydro Power Plant (PLTPh). However, the flow of water produced is certainly not strong enough because it only relies on the height of the tank laying, and the water discharge is not too large. So, the energy from sunlight is also utilized simultaneously and becomes a hybrid PV-hydro power plant (PLTH PV-hydro) with the aim of producing more optimal alternative energy. PLTH PV-Hydro is designed using a combination of 10 WP monocrystalline solar panels and two 10W DC generators coupled with turbines. The distance between the water drop point and the generator is designed to be as high as 2 meters and uses a 12 V, 5Ah VRLA battery as an electrical energy storage system. Based on the tests that have been carried out, the water discharge measurement results are 147.82 cm3/s = 147.82 × 10-3 l/s. The total power that PLTH can generate is 5.32 Watts using a 5-watt lamp load, and it can charge the battery within 6 hours. 
Co-Authors . Roslidar Alfiansyah Yulianur BC Faturiansyah, Elfin Fitrah, Nur Nuzulul Hafid Hafid, Hafid Helta, Fahri Iqbar Iqbar Ira Devi Sara Mahdi Syukri Muhammad fauzan Muhammad Irhamsyah Muttaqin, Asyrofi Nurwijayanti Ramdhan Halid Siregar Syahrizal Syahrizal Zalmi, Zalmi