APLIKASI PEMBANGKIT LISTRIK TENAGA ANGIN UNTUK RUMAH TANGGA

Abu Hasan, Sidiq Syamsul Hidayat, Sri Anggraeni, Endro Wasito

Abstract


Electric energy generation that converts wind motion energy into electrical energy. The
potential of wind in Indonesia's geographic region is potentially because Indonesia's territory
has a long coastline. Wind power plant is known as the Bayu Power Plant (PLTB), therefore
in this article the term of PLTB that will be used in the name of wind power plant. Research
team of the Politeknik Negeri Semarang This opportunity to examine the PLTB for
households with power on a larger scale of 500 watts. The Methode performed is experiment
by conducting a test measurement of the components of the component without load and load
laboratory scale. As well as a no-load PLTB system measurement at housing Dinar Mas
Meteseh. Tangnga House PLTB System consists of component components, vertical turbine
as converting kinetic power of angina to power Power 500 Watt, DC to DC Converter
functioned electrical power for charging battery storage and controlling voltage Turbine
output with input 9 v S/d 30 and output 12 V, Power 500 watt. And Inverter component that
works to provide DC power source from battery to power source according to mesh mesh
with 12 volt input and 220 volt 500 watt output. The output of the PLTB system is the output
of the end that is the result of all the integrase components of the PLTB system forming. The
output power analysis is made by ignoring the losses on the subsystem (components).
Acquired PLTB measurement with output power percentage of nominal power ranging from
95.1% up to 100%.


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References


Budi S.f. Muktar A.I, 2013 . Kincir Angin

poros vertikal sebagai alternatif penggerak

pompa irigasi perkebunan di desa Karya

Mukti.

Peluncuran peta potensi energy angin

kerjasama Indonesia –Denmark, saatnya

energy terbarukan : siaran pers No

pers/04/sji/2017.Perencanaan Aplikasi

Pembangkit Listrik Tenaga Bayu.

Introductions of renewable Energi Lesson

Modules At The Tchnical Schools in Indonesia

Riva Geovani.

Asis Sarkar, Dhiren Kumar Behera,

International Journal of Scientific and

Research Publications, Volume 2, Issue 2,

February 2012 , 1 ISSN 2250-3153 ,Wind

Turbine Blade Efficiency and Power

Calculation with Electrical Analogy.

Peter J. Schubel * and Richard J.

Crossley, Published: 6 September 2012,

Energies 2012, 5, 3425-3449;

doi:10.3390/en5093425, Wind Turbine

Blade Design.

Achmad Gustiantono1, Dominicus

DDPT2, Syamsul Hadi2, MEKANIKA

Volume 16 Number 1, March 2017,WIND

TURBINE VERTICAL AXIS H ROTOR

TYPE WITH 1 kW CAPACITY AT

SUWUK BEACH, KEBUMEN.

Copyright © 2017, Bel Power

Solutions Inc. All rights reserved, X Series Data Sheet 375, 500 Watt AC-DC and

DC-DC DIN-Rail Converters.

Dowon Han 1, Young Gun Heo 1,2,

Nak Joon Choi 3, Sang Hyun Nam 1,

Kyoung Ho Choi 2 and Kyung Chun Kim

, Published: 11 June 2018, Design,

Fabrication, and Performance Test of a

-W Helical-Blade Vertical-Axis Wind

Turbine at Low Tip-Speed Ratio.

,[8] 1D.SH. AKHMEDOV, 2D.I.

ERYOMIN, 3N.I. YAGFAROVA, 4M.K.

TURARBEKOV, International Journal of

Advances in Science Engineering and

Technology, ISSN: 2321-9009, Volume- 4,

Issue-1, Jan.-2016, Volume- 4, Issue-1,

Jan.-2016 ,

Mathematical Model To Calculate The

Performance Of Low Power Vertical Axis

Wind Turbine .

R. Thresher M. Robinson and National

Renewable Energy Laboratory, P. Veers

Sandia National Laboratories, Presented at

the Physics of Sustainable Energy

Conference University of California at

Berkeley March 1–2, 2008 Conference,

Wind Energy Technology: Current Status

and R&D Future

M. Ragheb 2/17/2019, MODERN

WIND GENERATORS

Mostafa Abarzadeh, Hossein Madadi

Kojabadi and Liuchen Chang,

Published: November 21st 2012

DOI: 10.5772/51918, Power

Electronics in Small Scale Wind Turbine

Systems.


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