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Nursaputro, Septiantar Tebe
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Study on Solar Powered Electric Vehicle with Thermal Management Systems on the Electrical Device Performance Herlambang, Yusuf Dewantoro; Sulistiyo, Wahyu; Margana, Margana; Apriandi, Nanang; Nursaputro, Septiantar Tebe; Marliyati, Marliyati; Setiyo, Muji; Purwanto, Wawan; Rochman, Muhammad Latifur; Shyu, Jin Cherng
Automotive Experiences Vol 7 No 1 (2024)
Publisher : Automotive Laboratory of Universitas Muhammadiyah Magelang in collaboration with Association of Indonesian Vocational Educators (AIVE)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31603/ae.10506

Abstract

This study aims to determine the reliability of applying a thermal management system in conjunction with Internet of Things in solar electric cars. In conventional electric cars or those whose driving energy source comes from gasoline fuel; the applied thermal management system is mainly used as a coolant for the internal combustion engine. However, for electric cars the thermal management system may be used for the main components such as controllers that convert solar module energy into electricity and batteries. Results from tests utilizing six DC fans for air cooling of the thermal management system yield two variations of battery charging conditions from the solar modules, namely variations of 25 and 400 turns of the trimmer constant current step-up charger. Test results from the proposed thermal management system show that the highest step-up charger temperature is 35.75 °C with voltage of 57.64 V for the variation of 25 laps. The test results on the battery voltage and temperature show that the highest battery temperature reaches 31.75 °C with voltage of 57.3 V at the variation of 25 rounds.
Pendampingan Penerapan Teknologi Smart Greenhouse Hidroponik Tanaman Selada Keriting Sistem Apung Berbasis Internet of Things di Nurusunnah Farm Aji, Achmad Fahrul; Sihono, Sihono; Supriyati, Supriyati; Rochmanto, Raditya Artha; Nursaputro, Septiantar Tebe; Kartika, Vinda Setya
Jurnal Pengabdian Sosial Vol. 1 No. 9 (2024): Juli
Publisher : PT. Amirul Bangun Bangsa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59837/c4jhq764

Abstract

Pertumbuhan penduduk meningkatkan permintaan sayuran segar, mendorong adopsi teknologi hidroponik yang menanam tanaman tanpa tanah menggunakan larutan nutrisi. Sistem ini meningkatkan produktivitas di lahan sempit dan menambah nilai estetika, serta menghindari penggunaan pestisida. Namun, pengaturan parameter seperti pH, oksigen, dan suhu diperlukan untuk menjaga pertumbuhan tanaman, terutama di lingkungan ekstrem seperti Semarang. Kegiatan pengabdian  mengimplementasikan teknologi IoT dalam sistem hidroponik apung di Nurusunnah Farm, Semarang. Teknologi ini memungkinkan pemantauan dan pengendalian parameter secara real-time, mengurangi beban kerja manual dan meningkatkan efisiensi serta produktivitas tanaman selada keriting. Kegiatan ini mencakup survei, perancangan, instalasi, pelatihan, dan evaluasi. Teknologi mampu melakukan pemantauan dan pengendalian parameter secara real-time, mengurangi beban kerja manual dan diharapkan meningkatkan produktivitas tanaman selada keriting. Hasil implementasi menunjukkan sistem yang dibuat dapat berjalan secara otomatis menggunakan teknologi IoT sehingga meningkatkan efisiensi pengelolaan kebun sekaligus mengurangi ketergantungan pada intervensi manual.
Co-Authors Aji, Achmad Fahrul Kartika, Vinda Setya Margana Margana Marliyati Marliyati, Marliyati Muhammad Latifur Rochman Muji Setiyo Nanang Apriandi Purwanto, Wawan Rochmanto, Raditya Artha Shyu, Jin Cherng Sihono Sihono Supriyati . Wahyu Sulistiyo Yusuf Dewantoro Herlambang