Proses Simulasi Sistem Concentrated Solar Power Equipment
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Abstract
The increase in the use of electrical energy in Indonesia is currently increasing from year to year and the population in Indonesia is increasing very rapidly, therefore we need an energy utilization technology that does not need a lot of money to operate it. Because Indonesia is located on the equator which makes Indonesia has a great potential for sun exposure. Utilization of solar energy can be done by using a technology to generate electricity from solar energy sources, namely Concentrated Solar Power (CSP) technology. Concentrated Solar Power (CSP) is a technology that uses solar energy that produces electrical energy from a component that converts heat energy into electrical energy using a Stirling engine. In this research, the solar energy utilization device developed is a Ground Base type Concentrated Solar Power (CSP) device equipped with a liquid fluid delivery system in the form of a piping system and a Stirling engine. By using a satellite dish measuring 6 feet or 1830 mm, and also added a drive system to move the parabola according to the point of efficient solar heat reception.Downloads
References
Ainul Ghurri, 2014. Dasar-Dasar Mekanika Fluida, Denpasar: Universitas Udayana.
Eswanto, E. and Syahputra, D., 2017. Analisa distribusi kapasitas aliran fluida di daerah percabangan pada sistem perpipaan. JTT (Jurnal Teknologi Terapan), 3(1), pp. 7-11.
Firman Tuakia, 2008. Dasar-dasar CFD menggunakan fluent, Jakarta.
Nugroho, A.A., 2017. Pembangkit Listrik Tenaga Surya Menggunakan Stirlling Engine’, Peranan Ipteks Menuju Industri Masa Depan. Seminar Nasional: Peranan Ipteks Menuju Industri Masa Depan (PIMIMD). Padang, hal. 6-8.
Priagung Habibillah, 2019. Perancangan Sistem Concentrated Solar Power (CSP) tipe parabolic, Tugas Akhir S-1, Fakultas Teknik Universitas Pancasila, Jakarta.
R. Aishwarya dan K. Dhivyabharathi, 2011. Solar powered stirling engine for selfgenerating electricity. In International Conference on Recent Advancements in Electrical, Electronics and Control Engineering, Chennai, India.
Rosyadi, I., Sudrajad, A., Satria, D., Yusuf, Y. dan Wijaya, K.T., 2017. Analisa Laju Aliran Fluida pada Mesin Pengering Konveyor Pneumatik dengan Menggunakan Simulasi CFD. FLYWHEEL: Jurnal Teknik Mesin Untirta, 2(1), hal. 48-51.
Royce A. Francis A.Francis, S. D. Guikema, dan L. Henneman, 2014. Bayesian Belief Networks for predicting drinking water distribution system pipe breaks, America: BBNs.
Suwandi, A., Prastyo, T. dan Rahmalina, D., 2021. Optimasi Rasio Konsentrasi Dish Engine Menggunakan Metode Root Cause Analysis. Jurnal Teknologi Rekayasa, 6 (1), hal. 109-114.
Waspodo, W., 2017. Analisa Head Loss Sistem Jaringan Pipa Pada Sambungan Pipa Kombinasi Diameter Berbeda. Suara Teknik: Jurnal Ilmiah, 8(1). Hal. 1-12.
