Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia

Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia

The Malaysian Government has set a target of achieving 20% penetration of Renewable Energy (RE) in the energy mix spectrum by 2025. In order to get closer to the target, Ocean Thermal Energy Conversion (OTEC) aligned with solar PV, biogas and biomass energy sources must be evaluated and comprehended...

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Main Authors: Sathiabama T. Thirugnana, Abu Bakar Jaafar, Takeshi Yasunaga, Tsutomu Nakaoka, Yasuyuki Ikegami, Suriyanti Su
Format: Article
Language:English
Published: MDPI AG 2021-12-01
Series:Journal of Marine Science and Engineering
Subjects:
marine profile
power generation
ocean thermal resource
renewable energy
Southeast Asia
Online Access:https://www.mdpi.com/2077-1312/9/1/22
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spelling doaj-2b3a1cba5b564673821e13f2dcc871b12021-04-02T18:58:45ZengMDPI AGJournal of Marine Science and Engineering2077-13122021-12-019222210.3390/jmse9010022Estimation of Ocean Thermal Energy Conversion Resources in the East of MalaysiaSathiabama T. Thirugnana0Abu Bakar Jaafar1Takeshi Yasunaga2Tsutomu Nakaoka3Yasuyuki Ikegami4Suriyanti Su5Razak Faculty of Technology and Informatics & UTM Ocean Thermal Energy Centre, University Teknologi Malaysia, Kuala Lumpur 54100, MalaysiaRazak Faculty of Technology and Informatics & UTM Ocean Thermal Energy Centre, University Teknologi Malaysia, Kuala Lumpur 54100, MalaysiaInstitute of Ocean Energy, Saga University, Saga, Saga City 840-8502, JapanInstitute of Ocean Energy, Saga University, Saga, Saga City 840-8502, JapanInstitute of Ocean Energy, Saga University, Saga, Saga City 840-8502, JapanDepartment of Earth Sciences and Environment, Faculty of Science and Technology, University Kebangsaan Malaysia, Bangi 43600, Selangor, MalaysiaThe Malaysian Government has set a target of achieving 20% penetration of Renewable Energy (RE) in the energy mix spectrum by 2025. In order to get closer to the target, Ocean Thermal Energy Conversion (OTEC) aligned with solar PV, biogas and biomass energy sources must be evaluated and comprehended. Hybrid OTEC systems consisting of energy and water production are currently under research and validation. Therefore, for the construction of a commercial OTEC plant, 1 MW or 2.5 MW, the choice of a strategic location or potential site is vital. In this paper, oceanographic data such as seawater temperature, depth, salinity and dissolved oxygen obtained from the Japan Oceanographic Data Center (JODC) for Semporna, Tawau, Kudat, Pulau Layang-Layang and Pulau Kalumpang in Sabah, Malaysia, are reported. The RE available from the Exclusive Economic Zone (EEZ) on the coast of Sabah was estimated based on the JODC data obtained. There were no remarkable differences in temperatures between the five sites, which were reported as approximately 27 °C at the surface and 7 °C at depths below 600 m. The surface salinities below 100 m at those sites were slightly lower than the deeper waters, where the salinity increased up to approximately 34.5 PSU. Dissolved oxygen data from the Pulau Kalumpang site showed a slight increment to approximately 4.7 mL/L at depth intervals below 50 m, before declining steadily to approximately 1.7 mL/L along with the depth. The temperature-salinity profiles of the Malaysian sites were congruent with those of Palau, Kumejima and Okinawa, but not with that of Fiji, where the salinity profile showed a distinct variation at the relative depth (below 200 m). Estimates of RE using two different methods were used to prove the potential of OTEC in Malaysia.https://www.mdpi.com/2077-1312/9/1/22marine profilepower generationocean thermal resourcerenewable energySoutheast Asia
collection DOAJ
language English
format Article
sources DOAJ
author Sathiabama T. Thirugnana
Abu Bakar Jaafar
Takeshi Yasunaga
Tsutomu Nakaoka
Yasuyuki Ikegami
Suriyanti Su
spellingShingle Sathiabama T. Thirugnana
Abu Bakar Jaafar
Takeshi Yasunaga
Tsutomu Nakaoka
Yasuyuki Ikegami
Suriyanti Su
Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia
Journal of Marine Science and Engineering
marine profile
power generation
ocean thermal resource
renewable energy
Southeast Asia
author_facet Sathiabama T. Thirugnana
Abu Bakar Jaafar
Takeshi Yasunaga
Tsutomu Nakaoka
Yasuyuki Ikegami
Suriyanti Su
author_sort Sathiabama T. Thirugnana
title Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia
title_short Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia
title_full Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia
title_fullStr Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia
title_full_unstemmed Estimation of Ocean Thermal Energy Conversion Resources in the East of Malaysia
title_sort estimation of ocean thermal energy conversion resources in the east of malaysia
publisher MDPI AG
series Journal of Marine Science and Engineering
issn 2077-1312
publishDate 2021-12-01
description The Malaysian Government has set a target of achieving 20% penetration of Renewable Energy (RE) in the energy mix spectrum by 2025. In order to get closer to the target, Ocean Thermal Energy Conversion (OTEC) aligned with solar PV, biogas and biomass energy sources must be evaluated and comprehended. Hybrid OTEC systems consisting of energy and water production are currently under research and validation. Therefore, for the construction of a commercial OTEC plant, 1 MW or 2.5 MW, the choice of a strategic location or potential site is vital. In this paper, oceanographic data such as seawater temperature, depth, salinity and dissolved oxygen obtained from the Japan Oceanographic Data Center (JODC) for Semporna, Tawau, Kudat, Pulau Layang-Layang and Pulau Kalumpang in Sabah, Malaysia, are reported. The RE available from the Exclusive Economic Zone (EEZ) on the coast of Sabah was estimated based on the JODC data obtained. There were no remarkable differences in temperatures between the five sites, which were reported as approximately 27 °C at the surface and 7 °C at depths below 600 m. The surface salinities below 100 m at those sites were slightly lower than the deeper waters, where the salinity increased up to approximately 34.5 PSU. Dissolved oxygen data from the Pulau Kalumpang site showed a slight increment to approximately 4.7 mL/L at depth intervals below 50 m, before declining steadily to approximately 1.7 mL/L along with the depth. The temperature-salinity profiles of the Malaysian sites were congruent with those of Palau, Kumejima and Okinawa, but not with that of Fiji, where the salinity profile showed a distinct variation at the relative depth (below 200 m). Estimates of RE using two different methods were used to prove the potential of OTEC in Malaysia.
topic marine profile
power generation
ocean thermal resource
renewable energy
Southeast Asia
url https://www.mdpi.com/2077-1312/9/1/22
work_keys_str_mv AT sathiabamatthirugnana estimationofoceanthermalenergyconversionresourcesintheeastofmalaysia
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AT takeshiyasunaga estimationofoceanthermalenergyconversionresourcesintheeastofmalaysia
AT tsutomunakaoka estimationofoceanthermalenergyconversionresourcesintheeastofmalaysia
AT yasuyukiikegami estimationofoceanthermalenergyconversionresourcesintheeastofmalaysia
AT suriyantisu estimationofoceanthermalenergyconversionresourcesintheeastofmalaysia
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