Perhitungan Daya Output PLTMH di Jalan Bintara Sungai Duren Jambi

Kriswanto Kriswanto, S Umar Djufri

Abstract


In Indonesia, not all of them get full electricity, in many regions there are not enough sources of electrical energy, but in Indonesia there are quite a lot of child air currents such as halal rivers because the benefits are as a source of electrical energy, PLTMH is very good to be used in hilly areas with manufacturing costs that are not quite expensive and not so difficult in its workmanship. This PLTMH uses a 2inch pipe size and a waterfall fall that is ideally used 0.2 m and turbine diameter 0.4 radius 0.2 specifier 18 Volt 15 Ampere generator uses 32 ampere / hour battery for storage of power generated by PLTMH and the inverter converts the dc current to ac power generated by PLMH. With the turbine rotation that is obtained by PLTMH 80 Rpm and produces 10.705 Watt turbine output power with generator output power and 7.996 Watt PLTMH output power

Keywords


calculation of power output PLTMH in the river NCO, Duren Jambi

Full Text:

PDF

References


Nugroho Y.S.H Hunggul,Sallata M.Kudeng. 2015. PLTMH (Pembngkit Listrik Tenaga Mikrohidro). ,Andi Offset. Jogja karta.

Syarif. 26 oktober 2015. Bendungan PLTMH Baru di Talegong Garut. berita/55663/bendungan-pltmh-baru-di-talegong-garut.

Wesli, Ir, 2008, Drainase Perkotaan. Graha Ilmu, Yogyakarta.

Satria, Agung. 8 Juni 2012. Presentasi Pembangkit Listrik Tenaga Mikrohidro (PLTMH)

Dwiyanto very, dan kawan kawan, 2016. Analisa Pembangkit Listrik Tenaga Mikrhidro(PLTMH) studi kasus: sungai air anak (Hulu sungai way besai) JRSDD,edisi September 2016 Vol.3, No.4, Hal:407(ISSN :2303:011)

Andika hanna,7 oktober 2016. Generator Sinkron Arus DC Di Terapkan Pada Lilitan Untuk Menghasilkan Medan Magnet Rotor. malang

Fauziah,sri. 2017. Perancangan Pembangkit Listrik Tenaga Mikrohidro. TA.Prodi elektronika departemen teknik elektro fakultas vokas ITS.surabaya

Aris Munandar, Artha,1982, Pembangkit Listrik Tenaga Air, Praditya Paramita, Bandung

Dietzel, F., Sriyono, Dakso, 1993, Turbin Pompa dan Kompresor, Erlangga, Jakarta.

Prasetyo, A. D. N. B., Priyo, H. A., 2016, Uji Eksperimental Pengaruh Variasi Banyak Sekat Pada Sudu Terhadap Daya dan Efisiensi Turbin Reaksi Cossflow Poros Vertikal Dengan Sudu Setengah Silinder, JTM, Universitas Negeri Surabaya, Volume 04 Nomor 03, 461-468.

Viktor, L , streeter E dan benyamin wylie, 1993. Mekanika Fuida Jilid I Edisi Delapan. Erlangga .jakarta

Wibowo, w . 2002. Kincir Air Pembangkit Listrik, Universitas Senata Dharma, Jogjakarta

Jufri, S. Umar. 2018. Analisis Awal Potensi Renewable Energy di Bawah Jembatan Aur Duri II Jambi, Journal of Electrical Power Control and Automation Vol.1 No.1 Juni 2018 e-ISSN 2621-556X




DOI: http://dx.doi.org/10.33087/jepca.v2i1.24

Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

ADRESS JOURNAL:

JOURNAL OF ELECTRICAL POWER CONTROL AND AUTOMATION (JEPCA)
Electrical Engineering Study Program, Faculty of Engineering, Batanghari University Jambi
Adress: Jl. Slamet Ryadi, Broni-Jambi, Kodepos: 36122, email: jepca.unbari@gmail.com

Creative Commons License This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.