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Search Results: 1 - 6 of 6 matches for " Zulati Litifu "
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Innovative Reliability Indices for Optimal Allocation of Renewable Energy in a Rural Power Network
Suyouli,Zulati Litifu,Ken Nagasaka
International Journal of Electrical and Power Engineering , 2012,
Abstract: By considering characteristics of rural power system, this study presents an optimal method to estimate wind speed and install Wind Power Turbine (WPT). Entire installation procedure is composed by selecting appropriate buses and verifying the power system after installing WPT. Two innovative indices such as the Power Index in Crisis Time (PICT) and the Endurance Index of Crisis Hours (EICH)) are developed and applied for determining the reliability level of target buses for installing WPT. The stability and reliability of formed hybrid power system are verified by the references of frequency and voltage. Result from this study was applied for a rural power system containing hydro power generation.
Efficiency of Micro Grid with Storage Battery in Reliability, Economy and Environment Assessments
Su Youli,Zulati Litifu,Ken Nagasaka
International Journal of Electrical and Power Engineering , 2012,
Abstract: In this study, the Micro Grid (MG) formed from the renewable energy resources and the storage battery was analyzed and verified by multi-factors. The target MG power system was planned and installed in Kochi prefecture, Japan and it consisits of wind power turbine and solar power plant as well as micro hydro power generator. The efficiency of a stand alone Micro Grid in reliability and economy as well as environment was assessed. The system reliability is verified by the indices of Loss of Load Probability (LOLP) and Expected Energy Not Supplied (EENS). And the economic efficiency was given appraisal by Yardstick indices of the Net Present Value (NPV) and the Benefit-Cost Ratio (BCR) as well as the Payback Period (PBP). The environment efficiency was evaluated considering the amount of CO2 discharge that was reduced by using installed MG power system renewable energy.
Geographical Information System for Calculating the Potential of Off-Shore Wind Energy in Japan
Asifujiang Abudureyimu,Yoshiki Hayashi,Zulati Litifu,Ken Nagasaka
International Journal of Electrical and Power Engineering , 2012, DOI: 10.3923/ijepe.2012.1.7
Abstract: Off-shore wind energy has been drawing interest recently. This research is focusing on the potential analysis of off-shore wind energy surrounding entire Japan coast using GIS Technology. Base on the economy and environment assessment, this research is evaluating the current situation and forecasting on future of wind energy technology in Japan. In order to reduce the green-house gas emission, also due to recent nuclear power problems in Japan, renewable energy (such as wind energy, solar energy, fuel cell) is considered to gradually substitute the primary energy resources (such as coal, oil). In this study, off-shore wind power is the centre of the focus. Based on GIS Technique, off-shore wind turbines in the surrounding of Japanese coast-line are considered. In the study, 2000 kW rated off-shore wind turbines are considered for further installation. As the result of this study, we have determined that 108,067 off-shore wind turbines are expected to be installed in 330 places with annual generation of 180.0 TWh. This is equal to 20% of annual total generated power made by a power companies in Japan in 2010.
Realization and Analysis of a Triple Hybrid Power System Consisting of Biomass, Wind and Solar Generators
Zulati Litifu,Yasuyuki Nemoto,Izumi Ushiyama,Ken Nagasaka
International Journal of Electrical and Power Engineering , 2012,
Abstract: This study presents a realization process of a hybrid system consisting of biomass and wind as well as solar power generation on the ground of Ashikaga Intitute of Technology located in Ashikaga City of Tochiki Prefecture. The installation principle and procedure are introduced based on the conditions of natural energy such as wind speed and solar rediation degree. The output characteristics from 20 kW biomass generator is explained and analyzed in according to cooperational possibility with the wind power and solar power system. The operation characteristics of 40 kW wind power turbine is provided based on the practical operation data collected within three years and the simulated results obtained from the software calculation. The operation conditions of 20.6kW solar power system is also anaylzed based on the solar irrediance desity in the located site. The general efficiency of this triple hybrid power system in ecomomic and environment aspects is also studied by using and comparing the simulation methodology and the data in practical operation.
Improving the Reliability of a Weak Power System by Introducing Wind Power Generation
Zulati Litifu,Noel Estoperez,Ken Nagasaka,Yasuyuki Nemoto,Izumi Ushiyama
International Journal of Electrical and Power Engineering , 2012,
Abstract: Granted by research project of Japan Society for the Promotion of Science (JSPS), this research provides planning of installing Wind Power Turbine (WPT) in an existing Local Weak Power System (LWPS). Wind power generation is expected to be used as a power reserve to improve the reliability degree and reduce line loss of LWPS, that suffers from critical load in each summer. Installation buses are selected based on the existing reliability degree derived from system condition in energy service and load demand, two reliability indices namely Weakness Degree in Energy Supply (WDES) that represents bus energy supply ability in a short critical time and Reliability Index in Energy Supply (RIES) that represents bus average energy supply ability during annual time are applied. Appropriate type of WPT is selected according to Percentage Rate of Availability Index (PRAI) and Percentage Rate of Utilization Index (PRUI) derived from Monthly Average Wind Speed (MAWS) through the target region. Operational reliability and stability are analyzed based on formed system characteristics after introducing WPT.
A Research on Electric Fluctuation and System Limitation of Wind Power Generation in a Weak Power System
Zulati Litifu,Ken Nagasaka,Yasuyuki Nemoto,Izumi Ushiyama
International Journal of Electrical and Power Engineering , 2012,
Abstract: This study provides an applicable process for introducing wind power generaton into a weak power system regarding the fluctuation of electric parameters so as to determine the installable limitation. The static and dynamic operational situation of a Wind Power Turbine (WPT) that relates to terminal output and connection system are detailly explained. Characters of inductive generator under sudden variation of wind speed and short circiut has been introduced. Wind and generation matrixes are applied for regional wind condition. The methods to determine optimal bus are considered by regarding sytem load particularity. The electric fluctuation of system parameters is analyzed in each bus of substation system. installable limitation is tested regarding fluctuation range of target parameters.
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