Koushik Ahmed scite author profile

Recently, electrical power generation from oceanic waves is becoming very popular, as it is prospective, predictable, and highly available compared to other conventional renewable energy resources. In this paper, various types of nearshore, onshore, and offshore wave energy devices, including their construction and working principle, are explained explicitly. They include point absorber, overtopping devices, oscillating water column, attenuators, oscillating wave surge converters, submerged pressure differential, rotating mass, and bulge wave converter devices. The encounters and obstacles of electrical power generation from the oceanic wave are discussed in detail. The electrical power generation methods of the generators involved in wave energy devices are depicted. In addition, the vital control technologies in wave energy converters and devices are described for different cases. At present, piezoelectric materials are also being implemented in the design of wave energy converters as they convert mechanical motion directly into electrical power. For this reason, various models of piezoelectric material-based wave energy devices are illustrated. The statistical reports and extensive literature survey presented in this review show that there is huge potential for oceanic wave energy. Therefore, it is a highly prospective branch of renewable energy, which would play a significant role in the near future.

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Proton Exchange Membrane Hydrogen Fuel Cell as the Grid Connected Power Generator

Ahmed

Farrok

Rahman

et al. 2020

Energies

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In this paper, a proton exchange membrane fuel cell (PEMFC) is implemented as a grid-connected electrical generator that uses hydrogen gas as fuel and air as an oxidant to produce electricity through electrochemical reactions. Analysis demonstrated that the performance of the PEMFC greatly depends on the rate of fuel supply and air supply pressure. Critical fuel and air supply pressures of the PEMFC are analysed to test its feasibility for the grid connection. Air and fuel supply pressures are varied to observe the effects on the PEMFC characteristics, efficiency, fuel supply, and air consumption over time. The PEMFC model is then implemented into an electrical power system with the aid of power electronics applications. Detailed mathematical modelling of the PEMFC is discussed with justification. The PEMFC functions as an electrical generator that is connected to the local grid through a power converter and a transformer. Modulation of the converter is controlled by means of a proportional-integral controller. The two-axis control methodology is applied to the current control of the system. The output voltage waveform and control actions of the controller on the current and frequency of the proposed system are plotted as well. Simulation results show that the PEMFC performs efficiently under certain air and fuel pressures, and it can effectively supply electrical power to the grid.

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Behavior of the Proton Exchange Membrane Fuel Cell Around Critical Fuel and Air Supply Pressure

Ahmed

Habib

Avi

et al. 2019

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Design and Implementation of Solar Power Wireless Battery Charger

Shufian

Rahman

Ahmed

et al. 2019

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Kool Mμ Powder Core Used in a Flux Switching Linear Electrical Machine for Electricity Generation from the Oceanic Wave

Farah

Farrok

Ahmed

2019

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Koushik Ahmed

Electrical Power Generation from the Oceanic Wave for Sustainable Advancement in Renewable Energy Technologies

Proton Exchange Membrane Hydrogen Fuel Cell as the Grid Connected Power Generator

Behavior of the Proton Exchange Membrane Fuel Cell Around Critical Fuel and Air Supply Pressure

Design and Implementation of Solar Power Wireless Battery Charger

Kool Mμ Powder Core Used in a Flux Switching Linear Electrical Machine for Electricity Generation from the Oceanic Wave

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