Mohammad Ababneh - Academia.edu (original) (raw)
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Papers by Mohammad Ababneh
International Journal of Modelling and Simulation
International Journal of Computational Science and Engineering, 2015
This work presents the design and simulation of 10 kW grid-connected photovoltaic (PV) systems as... more This work presents the design and simulation of 10 kW grid-connected photovoltaic (PV) systems as feasible power generators for the Hashemite University campus (32.05°N, 36.06°E). The simulation is performed to justify the accuracy and reliability of such design using PV-SOL and Meteonorm simulation software. In the primary simulation runs a set of parameters including the module power, PV-solar panel size, inverter type, global radiation and angle of inclination were used. The results of those runs lead to the final simulation parameters which are used for the 10 kW PV system. This work also presents a comparison between the performances of different PV panel sizes and different inclination angles. The final design of 10-kW PV-system consists of 33 PV panels of 300 W each and three inverters of 3.4 kW each. In order to highlight the economical and ecological effectiveness and the promising potential of the proposed system, a comparison between the costs of one kWh generated by our system with that of the public electricity tariff has been conducted.
EDITORIAL BOARD, Oct 1, 2011
This paper presents a reasoned methodology for designing variable structure controllers (VSC), al... more This paper presents a reasoned methodology for designing variable structure controllers (VSC), also known as sliding mode controllers (SMC), for Single-Input-Multi-output (SIMO) systems. The approach is explicitly based on the assessment of a system total energy, and the realization of a VSC that minimizes that energy. A relationship between controller gains and the slope of the sliding surface is explicitly formulated. The practical implementation of the proposed approach is exemplified on an inverted pendulum system ...
International Journal of Modelling and Simulation
International Journal of Computational Science and Engineering, 2015
This work presents the design and simulation of 10 kW grid-connected photovoltaic (PV) systems as... more This work presents the design and simulation of 10 kW grid-connected photovoltaic (PV) systems as feasible power generators for the Hashemite University campus (32.05°N, 36.06°E). The simulation is performed to justify the accuracy and reliability of such design using PV-SOL and Meteonorm simulation software. In the primary simulation runs a set of parameters including the module power, PV-solar panel size, inverter type, global radiation and angle of inclination were used. The results of those runs lead to the final simulation parameters which are used for the 10 kW PV system. This work also presents a comparison between the performances of different PV panel sizes and different inclination angles. The final design of 10-kW PV-system consists of 33 PV panels of 300 W each and three inverters of 3.4 kW each. In order to highlight the economical and ecological effectiveness and the promising potential of the proposed system, a comparison between the costs of one kWh generated by our system with that of the public electricity tariff has been conducted.
EDITORIAL BOARD, Oct 1, 2011
This paper presents a reasoned methodology for designing variable structure controllers (VSC), al... more This paper presents a reasoned methodology for designing variable structure controllers (VSC), also known as sliding mode controllers (SMC), for Single-Input-Multi-output (SIMO) systems. The approach is explicitly based on the assessment of a system total energy, and the realization of a VSC that minimizes that energy. A relationship between controller gains and the slope of the sliding surface is explicitly formulated. The practical implementation of the proposed approach is exemplified on an inverted pendulum system ...