Gomesh Nair Shasidharan scite author profile

Ahmed

et al. 2015

AMM

This paper discusses the use of the intelligent microcontroller and also discusses the results from the simulation application of fuzzy logic theory to the control of the high voltage direct and alternation current (HVDC)& (HVAC) power station systems. The application considered their implementation in both low and high level control systems in HVDC& HVAC power station systems. The results for the fuzzy logic based controller shows many improvements compared to the conventional HVDC& HVAC control system. The fuzzy logic based controller concept was further successfully extended to high level control of optimization problems such as the power swings. Based on simulation results, HVDC and HVAC breaker design are online protection against unwanted incidents happening to the system.

Maximum voltage angle optimization of uninterruptible power supply on three-level transformer-less photovoltaic inverter

Irwanto

Irwan

Shasidharan

et al. 2012

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Enhancement of Intrinsic Carrier Concentration in the Active Layer of Solar Cell Using Indium Nitride Quantum Dot

Humayun

Rashid

et al. 2015

AMM

This paper presents the improvement of intrinsic carrier concentrations in the active layer of solar cell structure using Indium Nitride quantum dot as the active layer material. We have analyzed effective density of states in conduction band and valance band of the solar cell numerically using Si, Ge and InN quantum dot in the active layer of the solar cell structure in order to improve the intrinsic carrier concentration within the active layer of the solar cell. Then obtained numerical results were compared. From the comparison results it has been revealed that the application of InN quantum dot in the active layer of the device structure improves the effective density of states both in conduction band and in the valance band. Consiquently the intrinsic carrier concentration has been improved significently by using InN quantum dot in the solart cell structure.

Wind Turbine Farm as an Alternate Electric Power Generating System in Perlis - Malaysia

Hussain

Ahmed

et al. 2015

AMM

In many countries fossil fuels are used as the main source to generate electricity, but due to the increase in energy consumption and the rapid depletion of the fossil fuel resources, the demand of alternate energy sources such as solar, wind or hydro power becomes high [1]. In this paper wind energy as an alternate energy resource for electric power generation is proposed in the form of a small wind farm for grid-connected application in Perlis Malaysia. The monthly wind speed data of Perlis which is the smallest state of Malaysia were measured and the wind mill parameters such as Air Density, Blade Length, Power Coefficient and Blade Length were calculated. The mechanical output power of the proposed wind turbine form is calculated to check out its performance and reliability. The results showed that the proposed wind energy power generating system is a good choice and can be implemented in Malaysia to provide enough power for small towns and rural areas.

Efficient Power Generation for Smart Homes Based Titanium Dioxide (TiO<sub>2</sub>)

Hussain

Azhar

et al. 2015

AMM

Smart home uses a combination of the renewable energy power resources, the use of power generation from solar cells based on titanium dioxide (TiO2) which acts as the only type which produces an efficient solar cell power to obtain the electricity to recharge the standby storage device from the sunlight. The thin film of Titanium dioxide is synthesized by the sol-gel spin coating techniques at 2000 rpm on the glass. The films have a constant thickness of ~240nm. The annealing process consists of 150°C, 250°C and 350°C. The study of the absorbance and the wavelength values are important. At this condition, for the solar cell, the wavelength is around ~280nm to ~330nm. As the temperature of annealing increases the higher absorbance would be produced. The refractive index of TiO2 film is estimated at different annealing temperatures and it increases with the increasing of the annealing temperature. The application is suitable to smart home design. The dynamic output voltage obtained from the solar cells is interfaced with other circuitry such as inverters and interface charging circuit in order to inject the generated power into the standby storage device. The calculated result of this application is efficient to reduce the electrical bill by almost 30% of its original value.