AHP Analysis on the Criteria and Sub-Criteria for the Selection of Fuel Cell Power Generation in Malaysia

Zaidi, Mohamad Faizal Ahmad; Shafie, Shafini Mohd; Rahim, Mohd Kamarul Irwan Abdul

doi:10.37934/arfmts.98.2.114

Cited by 5 publications

(2 citation statements)

References 38 publications

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“…Malaysia can be introduced to fuel cells as alternative renewable energy resources with the strong support from government particularly the spreading of funds for fuel cell expansion in Malaysia [14,15]. The fund is needed particularly for significant investments in infrastructure [16,17].…”

Section: Resultsmentioning

confidence: 99%

Optimum Design on Integration Biogas into Fuel Cell System in Malaysia: Economic and Environmental Aspect

Shafini Mohd Shafie,

A Harits Nu’man,

Nik Nurul Anis Nik Yusuf

2024

ARFMTS

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Transition to renewable energy in electricity generation need a serious study in variety of issues. Environment and economic perspective become the vital issue that need to study in local condition for penetration new concept of energy resources. Feeding a biogas into the fuel cell system seems an attractive way to less dependent on fossil fuel-based electricity generation. This study aims to optimize the plant location based on two aspect environment and economic. Capacitated Plant Location Model (CAPLOC MODEL) were used in determine the optimized location of the plant. The optimum design of power plant in Sarawak solely generated 847.91 MW and Pahang about 604.26 MW. Hopefully, the outcome of the study can provide the information for stakeholder in choosing the location for future energy system in Malaysia.

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Section: Resultsmentioning

confidence: 99%

Optimum Design on Integration Biogas into Fuel Cell System in Malaysia: Economic and Environmental Aspect

Shafini Mohd Shafie,

A Harits Nu’man,

Nik Nurul Anis Nik Yusuf

2024

ARFMTS

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“…Fuel cell technology has emerged as a promising alternative to traditional energy sources owing to its efficiency, low emissions and versatility [1][2][3][4][5][6][7]. Among the various types of fuel cells, Proton Exchange Membrane Fuel Cells (PEMFCs) have gained significant attention because of their quick start up time, high power density, and suitability for numerous applications [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Performance Investigation of PEM Fuel Cell with Three-Pass Serpentine Flow Fields under Varying Operating Voltages

Kaoutar Kabouchi,

Mohamed Karim Ettouhami,

Hamid Mounir

et al. 2024

CFDL

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The fuel cells performance is significantly impacted by both design and operational factors. The effective distribution of reactants within the flow fields is facilitated by the design of the flow channels. Therefore, the geometry of the flow channels and the overall design of the flow field play a crucial role in determining the fuel cells performance. Among various flow field designs, the serpentine flow field demonstrates superior performance compared to others. In this research, a three-dimensional proton exchange membrane fuel cell model was developed and used to study the influence of three-pass serpentine flow field on cell performance across varying operating voltages (0.9 V, 0.7 V and 0.5 V). The purpose of this research is to simulate and evaluate the comportment of the three-pass serpentine flow channels configuration by analyzing several parameters such as channels velocity distribution, oxygen mole fraction, pressure distribution and electrolyte current density along the z-axis at the cathode under different operating voltages. Numerical simulations were conducted using the COMSOL Multiphysics software. Therefore, this software is used to solve numerically the complete three-dimensional model with the governing equations of charge conservation, species transport, momentum, and continuity. The obtained results indicate that among different operating voltages, the cell voltage of 0.5 V demonstrated the highest channels velocity distribution, pressure distribution, and electrolyte current density. Moreover, it is found that at an operating voltage of 0.5 V, there is an important decrease in oxygen concentrations indicating a significant oxygen consumption in the fuel cell which improves the overall efficiency. This work contributes valuable insights to the optimization of fuel cell performance, specifically highlighting the favorable outcomes associated with the three-pass serpentine flow field design at lower operating voltages

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Evaluating criteria weights of street tree selection between residents and experts

Wang¹,

Tu²

2023

Landscape Ecol Eng

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AHP Analysis on the Criteria and Sub-Criteria for the Selection of Fuel Cell Power Generation in Malaysia

Cited by 5 publications

References 38 publications

Optimum Design on Integration Biogas into Fuel Cell System in Malaysia: Economic and Environmental Aspect

Optimum Design on Integration Biogas into Fuel Cell System in Malaysia: Economic and Environmental Aspect

Performance Investigation of PEM Fuel Cell with Three-Pass Serpentine Flow Fields under Varying Operating Voltages

Evaluating criteria weights of street tree selection between residents and experts

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