The Blumbang micro hydro power plant is a power plant utilizing hydropower that supplies electricity to the Blumbang area. The resulting supply is very large, around 30 kWh. However, it cannot be fully used by the surrounding society. So, it is necessary to do a feasibility study to increase the power capacity to determine supply and demand. This research aims to determine the community's supply and demand, which will impact the potential that can be taken by society.

The method used is field observations, supply and demand observations, analysis of differences in supply and demand. The results that the feasibility of increasing the power capacity. It supplies generated from PLTMH Blumbang ranges from 24-26 kWh of the electricity demand of micro hydro power plant, 6 kWh demand electricity of micro hydro power plant and PLN 16 kWh. The Blumbang society's electricity bill has decreased with the Blumbang micro hydro power plant.

Alhasibi, R. A. prasetya. (2010). Peran Sumber Energi Terbarukan dalam Penyediaan Energi Listrik dan Penurunan Emisi CO 2 di Provinsi Daerah Istimewa Yogyakarta. Jurnal Ilmiah Semesta Teknika, 13(2), 155–164.

Bawan, E. K. (2012). Dampak Pemasangan Distributed Generation Terhadap Rugi-Rugi Daya. Jurnal Ilmiah Foritek, 2(21), 216–223.

Budiyanto, A. (2015). Design Engineering Detail of Sono ( Opak River ) Microhydro Irrigation Project Parangtritis Kretek Village in the District. ASEAN Journal of System Engineering, 3(1), 41–46.

Durrani, A. M., Mujahid, O., & Uzair, M. (2019). Micro Hydro Power Plant using Sewage Water of Hayatabad Peshawar. 2019 15th International Conference on Emerging Technologies (ICET), 1–5.

Fadillah, M. B., Sukma, D. Y., & Nurhalim. (2015). Analisis Prakiraan Kebutuhan Energi Listrik Tahun 2015-2024 Wilayah Pln Kota Pekanbaru Dengan Metode Gabungan. Jom FTEKNIK, 2(2), 1–10.

Fajarsari, A. D., Sulaiman, M., & Setiawan, B. (2015). DEVELOPING A MODEL OF A SUSTAINABLE MICRO HYDROPOWER PLANT MANAGEMENT SYSTEM A Case Study Kedungrong MHP Purwoharjo Village Samigaluh District Kulon Progo Regency Yogyakarta Province. ASEAN Journal of System Engineering, 3(1), 18–27.

Prasetijo, H., Ropiudin, R., & Dharmawan, B. (2012). Generator Magnet Permanen Sebagai Pembangkit Listrik Putaran Rendah. Dinamika Rekayasa, 8(2), 70–77.

Puskom ESDM. (2018). Buku Pedoman Pengelolaan Lingkungan Hidup Bidang Pembangkit Listrik Tenaga Mikro Hidro. Kementerian ESDM.

Shiddiq, A. M., Yunus, Sultan, Rista, & Nurlita. (2015). Evaluasi Nilai Regulasi Tegangan Distribusi pada PLTMH Desa Ulu Wai Kabupaten Tana Toraja. Prosiding Seminar Nasional Teknik Elektro Dan Informatika, 271–274.

Sudiro, R. D., Arthaya, B. M., & Halim, L. (2019). Design of Propeller Turbine for Micro-Hydro-Electric Power Plant at Cikapundung River - Bandung. 2019 International Conference on Mechatronics, Robotics and Systems Engineering (MoRSE), 122–127.

Suharyati, Pambudi, S. H., Wibowo, J. L., & Pratiwi, N. I. (2019). Indonesia Energy Outlook 2019. DEN (National Energy Council).

Tampubolon, E. ., Tumaliang, H., & Rumbayan, M. S. (2014). Kajian Perencanaan Energi Listrik di Wilayah Kabupaten Sorong Menggunakan Perangkat Lunak LEAP. E-Journal Teknik Elektro Dan Komputer, 3(2), 69–78.

Zeb, S., Ali, M., Mujeeb, A., & Ullah, H. (2019). Cost efficient Mini hydro plant with low water head whirlpool design methodology for rural areas : (Micro Hydro Whirlpool power plant). 2019 2nd International Conference on Computing, Mathematics and Engineering Technologies (ICoMET), 1–7.