The development of Renewable Energy (RE) has become one of the priorities that has been promoted by various governments around the world, as a step towards implementing green energy in accordance with the Paris Agreement. The sea as one of the largest parts of the territory in Indonesia must be managed for its energy because it has quite large energy potential. One of them is ocean currents. The Sunda Strait is a very strategic strait and has ocean currents that have the potential to develop energy to be used as a source of electrical energy. Therefore the development of a suitable turbine design is urgently needed in this strait area. In previous research the simulation and experimental work have confirmed that the Savonius rotor can be worked in the low speed marine current. This is will be relevant with Sunda Strait condition that have current 0.4 – 1 m/s. The experiment also shows that the rotor provided torque 0.36 Nm with 11.97 RPM therefore can generated 0.45 Watt

Zealand Energy Efficiency and Conservation Authority. 2006. Marine Energy: Summary of Current Developments And Outlook New Zealand. New Zealand.

Boud, R., UK Department of Trade and Industry. 2003. Wave and Marine Current Energy: Status and Research and Development Priorities. DTI Report Number Fes- R-132.

Hobart, E.St., Sustainable Energy Development Office. 2001. Study of Tidal Energy Technologies For Derby Government of Western Australia. Report No. Wa- 107384-Cr-01.

Lemonis, G., Centre For Renewable Energy Sources (CRES). 2002. Wave Energy Utilization in Europe, Current Status and Perspectives. European Commission Directorate-General for Research. (2002).

U.S. Department of the Interior. 2006. Technology White Paper on Wave Energy Potential on the U.S. Outer Continental Shelf”, Minerals Management Service Renewable Energy and Alternate Use Program, Washington, U.S.A.

U.S. Department of the Interior. 2006. Technology White Paper on Ocean Current Energy Potential on the U.S. Outer Continental Shelf. Minerals Management Service Renewable Energy and Alternate Use Program. Washington, U.S.A.

Japan Marine Science and Technology Centre. 2004. Research and Development Technology on Wave Energy Utilization. JAMSTEC.

Orhan, K., Mayerle, R., Narayanan, R., & Pandoe, W. 2016. Investigation of the energy potential from tidal stream currents in Indonesia.

Orhan, K., Mayerle, R., Mayer, B. 2019. About the Influence of Density-Induced Flow on Tidal Stream Power Generation in the Sunda Strait, Indonesia.

Kiho, S, Shiono, M. and Suzuki, K. 1996. The Power Generation from Tidal Currents by Darrieus Turbine. Renewable Energy. Vol. 9, 1242- 1245.

Gorlov, A.M. 2004. Harnessing Power from Ocean Currents and Tides. Sea Technology, 40-43.

Powertech Lab Inc. 2009. Ocean energy: Global Technology Development. IEA-OES Document T0104, Canada, 63.

Eriksson, M.H., Moroso, A., Fiorentino, A. 2005. The Vertical Axis Kobold Turbine in the Strait of Messina-a Case Study of a full Scale Marine Current Prototype. Ponte Di Archimede S.p.A., Italy.

Davis, B.V. 2007. Low Head Tidal Power-a Major Source of Energy From the Worlds Oceans. Energy Conversion Engineering Conference, 1982-1989.

Myers, L. and Bahaj, A.S. 2005. Simulated Electrical Power Potential Harnessed by Marine Current Turbine Arrays in the Alderney Race. Renewable Energy, Vol. 3, 1713-1731.

Fraenkel, P.L. 2004. Marine Current Turbines: An Emerging Technology. Scottish Hydraulics Study Group Seminar, Glasgow, Lanarkshire, U.K., Vol. 19.

Batten, W.M.J., Bahaj, A.S., Molland, A.F. and Chaplin, J.R. 2007. Experimentally Validated Numerical Method for the Hydrodynamic Design of Horizontal Axis Tidal Turbines”, Ocean Engineering, Vol. 34, 1013– 1029.

Yaakob, O., Abdul Ghani, M.P., Tawi, K.B., Suprayogi, D.T., Aziz, A. and Bin Jaafar, Kh.E. 2008. Development of Ocean Wave and Current Energy Device. Proceedings Seventh UMT International Symposium on Sustainability Science and Management (UMTAS), Kuala Terengganu, Malaysia, 519-530.

O.B. Yaakob, D. T. Suprayogi, M.P. Abdul Ghani, K.B. Tawi. 2013. Experimental Studies on Savonius-type Vertical Axis Turbine for Low Marine Current Velocity. International Journal of Engineering (IJE), Tehran, Iran

Yaakob, O., Tawi, K. B., and Suprayogi, D. T. 2010. Computer Simulation Studies on The Effect Overlap Ratio for Savonius Type Vertical Axis Marine Current Turbine. IJE Transaction A: Basic, Vol. 23, 79-88.