Alaa A. F. Husain scite author profile

Commercial grid-connected rooftop solar PV systems are widely applied worldwide as part of affordable and clean energy initiatives and viable long-term solutions for energy security. This is particularly true in a crowded city where space is a constraint and at the same time, there are unutilized rooftops. With the recently announced Net Energy Metering (NEM) 3.0, commercial buildings in Malaysia can apply up to 75% capacity of the maximum demand (MD), which can be connected to the grid. Apart from reducing electricity bills, the owner can offset energy for 10 years. This paper presents a design analysis with the details of the sizing of a rooftop PV system. The PVsyst software tool is used to estimate the energy produced by a 380 kWp system, and this study provides a financial analysis to evaluate the profitability of the system with a particular interest in commercial buildings under the NEM 3.0 policy, which has resulted in 8.4 years return of investment (ROI). PVsyst is a software used to size the PV system and provides technical, financial, and environmental analysis. This in-depth analysis could provide a useful case study for asset owners in deciding the way forward for sustainable energy production, cost saving, and combating the energy security issue, since Malaysia is blessed with an abundance of sunshine throughout the year.

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A Decade of Transitioning Malaysia toward a High-Solar PV Energy Penetration Nation

Husain

Phesal

Kadir

et al. 2021

Sustainability

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In the last 10 years, Malaysia has aggressively moved towards a higher penetration of 20% of renewable energy (RE) in the Malaysian energy mix by 2025. Several incentives and initiatives have taken place with the aim of achieving the goals in terms of installed capacity and catching up with the leading countries in these sectors. Since 2011, Malaysia started the Feed-in-Tariff (FiT) before introducing Net Energy Metering (NEM) in 2017, and recently, another initiative known as NEM 3.0 has been introduced. This paper reviews all policies undertaken by the Malaysian government from 2011 to 2021 in spearheading the country to be on par with others, especially those in the Southeast Asian (SEA) region. The effectiveness of each policy on the growth of photovoltaic PV energy installation is highlighted, and the latest update on the NEM 3.0 policy is also discussed. A comparison of each approach in terms of installed capacity and system connection setup to the grid is also considered for the benefit and sharing of knowledge from one of the fastest-developing countries in the region.

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Short Review on recent solar PV policies in Malaysia

et al. 2020

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Energy in developing countries essential for economic growth and development. In result of the rapid growth of development, society demands more electricity. In addition to that, unsustainable energy production can have a harmful effect on our environment. Solar energy is the most inexhaustible method of energy. With that has been stated, it is evident that PV technology is starting to be one of the primary roots of energy generator to supply power for development. The economic ambition is to create solar energy more cost effective and efficient, nevertheless, it is still not compatible with fossil fuel. Typically, in order for solar energy to replace the fossil fuel or at least support the development demands of energy, the implementation of solar energy system must increase in homes and plantation projects. This problem drove governments to come up with policies that encourage implementing solar system in homes of citizens. The most used policies are fed in tariff and net energy metering, which is applied in 80 nations round the globe. This paper studied the policies applied in solar energy in Malaysia in the past 8 years. The paper went over each policy and considered their financial and environmental welfare. It did show the effect of the policy applied at the time on the capacity installed in Malaysia.

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Dielectric properties of ceramic materials obtained from rice husk for electronic applications

Osman

Abdullah

Husain

et al. 2017

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This paper reports on dielectric properties of ceramic material obtained from Rice Husk (RH) for electronic applications. RH is considered as agriculture waste material, contains 20-25wt% of silica (SiO2). The nanometer-sized silica powder was prepared via mechanical alloying and subsequent molding into pellet form. The compacted pellet samples were sintered at 800°C, 1000°C, 1100°C and 1200 °C respectively. Silver paste was applied on both faces of the pellet to act as electrodes. For analysis of ferroelectric polarization with respect to electric field, measurement was done using ferroelectric hysteresis loop towards the sintered pellets. The dielectric analysis was done using LCR meter. It clearly shows that dielectric constant of the samples decrease with increasing applied frequency. The capacitance is found to be decreasing with increased sintering temperatures. The result showed that WHRA does contain silica which has high dielectric constant and therefore is suitable for electronics application.

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Alaa A. F. Husain

A review of transparent solar photovoltaic technologies

Techno-Economic Analysis of Commercial Size Grid-Connected Rooftop Solar PV Systems in Malaysia under the NEM 3.0 Scheme

A Decade of Transitioning Malaysia toward a High-Solar PV Energy Penetration Nation

Short Review on recent solar PV policies in Malaysia

Dielectric properties of ceramic materials obtained from rice husk for electronic applications

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