Abstract

Electrical energy is one of the primary needs of Indonesian society that continues to increase. However, until now most of the electricity needs are still supplied by fossil fuel power plants. The fossil energy dependence affects the high cost of distributing electricity to remote areas. The picohydro power plant using propeller turbines is one solution for remote areas. The purpose of this paper is to conduct a theoretical study to obtain optimal propeller blade design with relatively easy design method. Based on the study results obtained geometry and design of turbine propeller that can produce efficiency 73,9% with head water 1,75 m and flowrate 64 l / s. While the propeller turbine design is the diameter of the turbine 200 mm the number of blades 5, and the inlet runner tip 65 °.

Jurnal Lemhannas RI, 2012, Pengembangan Energi Baru Terbarukan (EBT) guna Penghematan Bahan Baku Fosil dalam Rangka Ketahanan Energi Nasional, Jurnal kajian lemhannas, edisi 14.

Yuningsih, A. dan Masduki, A., 2011, Potensi Energi Arus Laut untuk Pembangkit Tenaga Listrik di Kawasan Pesisir Flores Timur-NTT, Jurnal Ilmu dan Teknologi Kelautan Tropis, Vol. 3, No. 1, Hal. 13-25.

Sarma, N., Biswas, A., & Misra, R. (2014). Experimental and computational evaluation of Savonius hydrokinetic turbine for low velocity condition with comparison to Savonius wind turbine at the same input power. Energy Conversion and Management, 83, 88-98.

H. Zainuddin, M. S. Yahaya, J. M. Lazi, M. F. M. Basar and Z. Ibrahim. (2009) Design and Development of Pico-hydro Generation System for Energy Storage Using Consuming Water Distributed to Houses. World Academy of Science, Engineering and Technology 35.

K.V. Alexander, E.P. Giddens, A.M. Fuller. (2010). Axial-flow turbines for low head microhydro systems. Renewable Energy 34. Pp. 35–47.

Musa, Masjuri, dkk. 2011. “CFD Analysis on Cost-effective Pico-hydro Turbine: A Case Study for Low Head and Low Flow Rate Condition”.

Chen, J., Yang, X.Y., Liu C.P., Lau, C.H., Lo, M.,. “A novel vertical axis water turbine for power generation from water pipelines”. Energy 54 (2013) : 184 – 193.

Yu War Myint dan Htay Htay Win. 2014. “Design and Flow Simulation of Runner Blade for Propeller Turbine”.

Nuantong Weerapon, and Taechajedcadarungsri Sirivit. 2009. “Flow Simulations on Blades of Hydro Turbine”, Khon Kaen: Khon Kaen University.

Helena M. Ramos, Mariana Simao, and A. Borga. Experiments and CFD Analyses for a New Reaction Microhydro Propeller with Five Blades. JOURNAL OF ENERGY ENGINEERING. 2013.139:109-117.

Punit Singh, Franz Nestmann. (2009). Experimental optimization of a free vortex propeller runner for micro hydro application. Experimental Thermal and Fluid Science 33 (2009) 991–1002.

Pradhumna Adhikari, Umesh Budhathoki, Shiva Raj Timilsina, Saurav Manandhar, Tri Ratna Bajracharya. A Study on Developing Pico Propeller Turbine for Low Head Micro Hydropower Plants in Nepal. Journal of the Institute of Engineering, Vol. 9, No. 1, pp. 36–53.

Pardeep Kumar, R.P. Saini. (2010). Study of cavitation in hydro turbines. Renewable and Sustainable Energy Reviews 14. Pp. 374–383.

Gorlov, A.M. 1998. “ Development of The Helical Reaction Hydraulic Turbine”, Boston: Northeastern University.