Wooi Chin Leong
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Preferred name
Wooi Chin Leong
Official Name
Leong, Wooi Chin
Alternative Name
Wooi, Chin-Leong
Wooi, C. L.
Wooi, Chin-leong
Main Affiliation
Scopus Author ID
55912811600
Researcher ID
V-2268-2019

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  • Publication
    Feasibility, sizing and economic analysis of solar energy system for green Swinburne campus
    (Institute of Electrical and Electronics Engineers (IEEE), 2020)
    Mohamed Ashfaaq Riphque
    ;
    Hadi Nabipour-Afrouzi
    ;
    Wooi Chin Leong
    ;
    SanChuin Liew
    ;
    Kamyar Mehranzamir
    ;
    Jubaer Ahmed
    In 2011 alone, Malaysia has spent a hefty RM14.5 billion in buying fossil fuels to generate electricity. With the cost of fossil fuels rising each year, the nation is looking to rely on more sustainable energy sources. One way to decrease the reliance on fossil fuel is to minimize electricity consumption or use renewable energy sources. This research tests if it is feasible to run the Swinburne campus with Solar photovoltaic (PV) cells. This study aims to design and implement a PV energy system to power Swinburne University of Technology Sarawak. The design of the PV system is performed with the collection of the solar irradiance in Kuching, load profile of the Campus and the area required to layout the panels. Block-E of Swinburne is chosen for the PV system since all Swinburne blocks together consume very high power and do not have the required area for the panels. A Grid-Tied system is considered for the PV design. MATLAB software is used to size the PV system. Economic analysis such as Levelized Cost of Energy (LCOE), Life Cycle Cost Analysis (LCCA) and payback period is studied for the PV system.
  • Publication
    Development of biomass-fueled cogeneration systems for off-grid electrification
    (Institute of Electrical and Electronics Engineers (IEEE), 2020)
    Mohammad Ali Bagherian
    ;
    Kamyar Mehranzamir
    ;
    Jubaer Ahmed
    ;
    Marwan Nafea
    ;
    Hadi Nabipour-Afrouzi
    ;
    Wooi Chin Leong
    Over the past centuries, discovery and utilization of fossil fuels has revolutionized the world pushing societies towards modernization. This source of energy that is being referred as black gold, has faced extensive consumption which consequently started to underpin the acceptance of the negative effects of our carbon society and its likely demise. Fossil fuels have costed the safety and overall health of our environment, causing serious consequences such as global warming and unsustainability. To this end, in the search for alternative generation, the potential of renewables was realized and hence, exploited in the energy sector. In recent times, development of efficient prime movers and possible utilization of renewable energy resources for both power and heat production introduced the concept of cogeneration to the energy sector. Accordingly, this comparative research elaborates on utilization of the most available and versatile renewable energy, biomass, in combined heat and power technology. There is no doubt that the integration of bioenergy and cogeneration is associated with significant advantages, namely: lower environmental impacts and primary energy savings. In this context, four different biomass-fueled configurations are developed for the purpose of electrifying the Masset village in Canada. Two well-known methods of: Direct Combustion and Gasification are considered in the model development. Further, a comparative conclusion is drawn from economic perspective.
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