NTT lembata北部海域海洋热能转换(otec)潜在装置的研究

Bulletin of the Marine Geology Pub Date : 2023-06-21 DOI:10.32693/bomg.38.1.2023.789

Gisela Malya Asoka, Denny Nugroho Sugianto, Yani Permanawati

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引用次数: 0

摘要

海洋热能转换是利用海面与深海之间至少20℃的温度变化，将海水热含量变化中的势能转化为其他能量的尝试。伦巴塔水域靠近赤道，海面温度趋于温暖和稳定。本研究旨在估算北Lembata水域一个封闭循环OTEC系统产生的势能。本研究使用哥白尼海洋环境监测服务(CMEMS) 9年(2012-2020年)6个站点的全球海洋物理再分析数据。使用海洋地质研究所(MGI)的初级CTD Lembata OTEC团队进行验证。采用均方误差(Mean Square Error, MSE)、均方根误差(Root Mean Square Error, RMSE)和平均绝对百分比误差(Mean Absolute Percentage Error, MAPE)方法验证温度数据的结果，代表现场温度条件。变率值显示，北伦巴塔水域站点温度差异不大。垂直温度变化(ΔT)显示在20.98°C至23.44°C之间。利用技术估算公式得出OTEC系统的电势功率。这些温度梯度产生的平均净功率分别为5.65兆瓦-7.56兆瓦。Lembata水域的温度条件适合OTEC装置。C-4站的电势为6.84兆瓦，深度为763米，距离海岸线1.86公里。位于Omesuri分区的C-4站是在北伦巴塔水域安装OTEC的最佳地点。

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STUDY OF POTENTIAL INSTALLATION OF OCEAN THERMAL ENERGY CONVERSION (OTEC) IN THE NORTH WATERS OF LEMBATA, NTT

Ocean thermal energy conversion is an attempt to convert potential energy in the variances heat content of seawater into other energy by utilizing the temperature change between the sea surface and deep sea at least 20°C. The Lembata waters is near to the equator, sea surface temperature tends to be warm and stable. This research was conducted to estimate the potential energy generated from a closed cycle OTEC system in North Lembata Waters. This study used temperature data from Global Ocean Physics Reanalysis from Copernicus Marine Environment Monitoring Service (CMEMS) for 9 years (2012-2020) in 6 stations. Validation was performed using the primary CTD Lembata OTEC Team of the Marine Geological Institute (MGI). Temperature data validation results on the MSE (Mean Square Error), RMSE (Root Mean Square Error), and MAPE (Mean Absolute Percentage Error) methods are considered to represent field temperature conditions. The variability value shows the station point in the North Lembata Waters has a temperature with slight differences. The vertical temperature change (ΔT) shows between 20.98°C to 23.44°C. Potential electric power resulting from the OTEC system using the technical estimation formula. The average net power generated from those temperature gradients ranges from 5.65 MW-7.56 MW, respectively. The Lembata waters have temperature conditions suitable for OTEC installations. Station C-4 has a power potential of 6.84 MW with a depth of 763 m and the distance of 1.86 km from the coastline. Station C-4 in the Omesuri sub-district is the best point for OTEC installation in North Lembata Waters.

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Bulletin of the Marine Geology

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审稿时长

16 weeks