Showing total 4 results

1. A spatial-temporal clustering for low ocean renewable energy resources using K-means clustering.

Author

Uti, Mat Nizam, Md Din, Ami Hassan, Yusof, Norhakim, and Yaakob, Omar

Subjects

*OCEAN energy resources, *RENEWABLE energy sources, *K-means clustering, *ENERGY consumption, *ENERGY development, *OCEAN

Abstract

Advancements in space technology have enabled the acquisition of reliable marine data, facilitating research on the potential of ocean renewable energy as an alternative source that can reduce dependency on fossil fuels, subsequently mitigating climate change. However, the ocean renewable energy development in Malaysia has not received adequate attention from local authorities and communities due to low resources in this area. Insufficient in-situ data, both in spatial and temporal dimensions, poses challenges in investigating the characteristics of ocean parameters, hindering a thorough study of the potential for ocean renewable energy development. Hence, this paper aims to identify potential ocean renewable energy development locations using the altimetry data and spatial-temporal clustering using the K-means technique. Theoretically, Malaysian seas are suitable for harnessing wind and waves with energy density ranges of up to 104.69 kW/m2 and 4.21 kW/m, respectively. This study enhances the understanding of Malaysian potential for ocean renewable energy, providing valuable information to stakeholders and the government to increase their interest in ocean renewable energy as a sustainable source for electricity generation in the future. [ABSTRACT FROM AUTHOR]

Published

2023

2. Feasibility of marine renewable energy to the Feed-in Tariff system in Malaysia.

Author

Lim, Xin-Le, Lam, Wei-Haur, and Hashim, Roslan

Subjects

*OCEAN energy resources, *RENEWABLE energy sources, *ENERGY harvesting, *NET present value

Abstract

Marine renewable energy (MRE) is yet to be included in the Feed-in Tariff (FiT) system in Malaysia. However, the country is surrounded by the Straits of Malacca and South China Sea, making it suitable to harness energy in the water. Financial supports from the government are essential in developing this technology. This paper aimed to suggest appropriate FiT rates of MRE based on Net Present Value (NPV) approach. Meanwhile, the proposed FiT rates were compared with other implemented FiT rates of MRE in United Kingdom, Germany, France, Republic of Ireland, Italy, Portugal and Korea. The results showed that reasonable FiT rates of MRE in Malaysia should be in the range of €0.06–0.60/kWh depending on the type of MRE technology used. The proposed tariffs were exceedingly higher than the implemented FiT rates of solar photovoltaic ranging from €0.20 to 0.28/kWh due to higher project cost. [ABSTRACT FROM AUTHOR]

Published

2015

3. Ocean renewable energy in Malaysia: The potential of the Straits of Malacca.

Author

Chong, Heap-Yih and Lam, Wei-Haur

Subjects

*OCEAN energy resources, *STRAITS, *RENEWABLE energy sources, *ECONOMIC impact, *ENERGY consumption

Abstract

Abstract: The need for renewable energy is a global demand due to both the economic factors and the environmental concerns. Malaysian government has been supportive on the research and development in the renewable energies. Renewable Energy Act (2011) and Sustainable Energy Development Authority Act (2011) have been enacted to boost the industry of renewable energy. This paper presents the current status and future prospects of renewable energy in Malaysia with particular focus on the ocean renewable energy. Five types of ocean renewable energy were reviewed including tidal barrage, tidal current energy, wave energy, Ocean Thermal Energy Conversion (OTEC) and salinity gradient power. The comparison of various types of ocean renewable energy has been made to present their recent technologies in electricity generation. Tidal current energy is identified as a preferable option particularly in the Straits of Malacca. [Copyright &y& Elsevier]

Published

2013

4. Analytical assessments on the potential of harnessing tidal currents for electricity generation in Malaysia

Author

Lim, Yun Seng and Koh, Siong Lee

Subjects

*TIDAL currents, *ELECTRIC power production, *MARINE turbines, *FOSSIL fuels, *GREENHOUSE gases, *OCEAN energy resources, *ENVIRONMENTAL impact analysis, *BIOMASS energy

Abstract

Abstract: Malaysia is heavily dependent on fossil fuel for electricity generation. With the rapidly diminishing of its fuel reserve and the increasingly negative effects of fossil fuels to the environment, the government has begun to utilise bio-fuel and solar radiation for electricity generation. However, the potential of harnessing other renewable sources, particular ocean energy, in Malaysia has not been fully realised. Therefore, studies were carried out to identify the potential of harnessing ocean energy for electricity generation. The Princeton Ocean Model was used to create a three-dimensional numerical ocean model for Malaysia which was calibrated against measurement by a means of adjoint data assimilation approach. A set of reliable tidal speed and tidal elevation data was therefore generated to determine the types of tides available in Malaysia, the potential areas of installing marine current turbines (MCTs), the total amount of electricity to be generated by MCT, the economical viability and the environmental benefits of using MCT in Malaysia. This paper presents the findings on the studies, encompassing the technical, economical and environmental aspects of installing MCT in Malaysia. The results are critical to policy makers and the potential investors on tidal energy in Malaysia for decision making. It may also help the neighboring countries to realize the possible potential of their ocean energy for electricity generation. [Copyright &y& Elsevier]

Published

2010