Design Of An Alternative Electrical Powerplant Using Combination System Between Gorlov Helical Turbine, Savonius Wind Turbine And Connected Surface Buoy System As a Solution Of Electrically Energy Crisis In Eastern Indonesia

Mubarok, Muhammad Rizqi (2018) Design Of An Alternative Electrical Powerplant Using Combination System Between Gorlov Helical Turbine, Savonius Wind Turbine And Connected Surface Buoy System As a Solution Of Electrically Energy Crisis In Eastern Indonesia. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Indonesia is in electrical energy crisis, especially in eastern Indonesia. To date, the average province in eastern Indonesia still has a low electrification ratio of between 20% - 40%, which means that many areas are not powered by electricity. In addition, until April 2016, there are still 12,659 disadvantaged villages in Indonesia that have not had full access to electricity for 24 hours, while 2,519 villages have not been fully electricity (Ministry of ESDM, 2016). As a result, economic activity, households are hampered, and regional development becomes very limited. With the potential as an archipelagic country, Indonesia can exploit new and renewable energy potential from ocean currents, sea winds and waves. Recorded, the strongest potential of ocean currents in Indonesia is in the Capalulu Strait, North Maluku Province, with a speed of 5.0 m / sec (PPGL, 2016). While the potential of Indonesia's sea wind in some areas has wind speeds above 5 m / s, in East Nusa Tenggara, West Nusa Tenggara, South Sulawesi and South Java Jawa (LIPI, 2007). So, it can be concluded that Indonesia has a lot of energy potential. We innovate to create an integrated power plant system that combines Helix Turbines, Savonius Turbine and Connected Surface Buoy System as the solution to this problem. The working system of this plant is to convert kinetic energy from the currents and waves of sea water and sea wind energy into electrical energy through generators to meet the electricity needs in Indonesia. The power generated by the powerplant reaches 5.8 mW and is capable of supplying more than 6400 homes in Indonesia (asumption every home requires 900 Watt). With this powerplant is expected to be a solution to overcome electrical energy crisis, especially in eastern Indonesia.

Item Type: Thesis (Undergraduate)
Uncontrolled Keywords: Energy crisis; ocean currents; sea waves; sea wind; coastal.
Subjects: T Technology > TC Hydraulic engineering. Ocean engineering
T Technology > TJ Mechanical engineering and machinery > TJ164 Power plants--Design and construction
Divisions: Faculty of Marine Technology > Marine Engineering > (S1) Undergraduate Theses
Depositing User: M Rizqi Mubarok
Date Deposited: 19 Jan 2018 07:49
Last Modified: 19 Jan 2018 07:49
URI: http://repository.its.ac.id/id/eprint/49760

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