Displaying all 2 publications

Abstract:
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  1. Sharifah Sakinah, Tuan Othman, Jasronita, Jasni, Mohd Nazim, Mohtar
    MyJurnal
    Lightning is a natural phenomenon that generates a high electric field during thunderstorm. It has been
    reported that lightning strikes amid storms can occur around 100 times per second. The atmospheric
    electric field is an imperative parameter during a thunderstorm. Therefore, monitoring the electric field
    and its parameters is the best way for local lightning forecast. The electric field monitoring data can
    validate the accuracy of weather prediction in a local area from meteorology department or by using
    equipment specially designed to measure this electric field that exists when the phenomenon of lightning occurs. In this paper, the relationship between lightning, air humidity and temperature is discussed to understand the post lightning effect on these electric parameters. Additionally, the characteristics of the parameters are observed and analysed.
  2. Maryam Mirzaei, Jasronita Jasni, Hashim Hizam, Noor Izzri Abdol Wahab, Ehsan Moazami
    MyJurnal
    In this paper, a multi-objective analytical method to evaluate the impacts of optimal location and sizing
    of distributed generation is presented. This method is based on an analysis of the exact loss formula and
    continuous power flow in a radial distribution system. Based on two methods of analysis, power loss
    and weakest voltage buses and lines are calculated and then the optimal size of distributed generation
    is determined. After that, by considering the minimum power losses and the maximisation of voltage
    stability, the proposed index determines and ranks positions to decide the optimal distributed generation
    location in the system. This method allows us to find the best places and size to connect a number of
    distributed generation units by optimising the objective functions. The simulation results were obtained
    using a 33-bus radial distribution system to determine the location and size of the distributed generation
    units. The results show the effectiveness of voltage profile improvement, loading factor improvement
    and power loss reduction. Further, the problems of a single objective function and the placement of the
    distributed generation unit using analytical methods are solved by the proposed approach.
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