RELIABILITY OF INSTALLING OCEANIC THERMAL ENERGY SOURCES AROUND SOUTH AMERICA BY DIVERGENCE OF TEMPERATURES

IF 0.2 Q4 CHEMISTRY, MULTIDISCIPLINARY

Periodico Tche Quimica Pub Date : 2022-03-31 DOI:10.52571/ptq.v19.n40.2022.01_chirinos_pgs_01_19.pdf

C. Díez, Carlos Manuel Estrada, Oscar H. Varas, Caroline Pamela Camarena, Lari Jacson Atoc

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Abstract

Background: The world population has grown considerably, increasing the demand for primary resources, i.e., water, electricity; the generation of renewable electricity is the first aspiration of human beings. Radiation from the Sun is an extensive source of tenable energy, and this radiation fades in the depth of the ocean waters, making it possible to take benefit. Aim: The purpose of this work was to settle a process of absorbing Sun radiation and converting it into energy by considering a couple of geographical coordinate points, with a great differential of temperatures in the Oceans around South America, to implement thermal machines. Methods: This work processes temperature data taken from the Tropical Atmosphere Ocean (TAO) project, maintained by National Oceanic and Atmospheric Administration’s (NOAA) Pacific Environmental Laboratory (PMEL). Data were processed with Matlab 2009a Student Version. Water temperature implies the intensity degree of ocean heat energy. So, this study takes temperature data at Sea around South America to glean oceanic thermal energy means the Carnot machine method and gradients of temperatures. Results and Discussion: The more stable area annually to install thermal machines are farther than 35° from Panama Canal and Trujillo to the west meridian. The weaker values are found near Quito (Equator); but medium in the Atlantic Ocean, being the better location 15° to the East of Fortaleza de Sâo José de Macapá (Brazil). On the other side, a real gas could change its speed from 40.0 m/s below 500.0 m mean sea level (bmsl) up to 650.0 m/s at the Sea Surface, while an artificial gas from 20.0 m/s up to 400.0 m/s. Conclusions: This study exposes that the energy harvested on the coasts, the warmest of South America, brings sufficient energy to the neighboring population. During ENSO time (El Niño Southern Oscillation), the waters of the Pacific Ocean increase their thermal energy, so the output performance will be varied.

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根据温度差异在南美洲周围安装海洋热能的可靠性

背景:世界人口大幅增长，增加了对初级资源，即水、电的需求;可再生能源发电是人类的第一个愿望。来自太阳的辐射是一种广泛的可再生能源，这种辐射在海水深处逐渐消失，使人们有可能从中受益。目的:这项工作的目的是通过考虑几个地理坐标点来解决吸收太阳辐射并将其转化为能量的过程，这些点在南美洲周围的海洋中温度差异很大，从而实现热机。方法:本工作处理来自热带大气海洋(TAO)项目的温度数据，该项目由美国国家海洋和大气管理局(NOAA)太平洋环境实验室(PMEL)维护。使用Matlab 2009a Student Version对数据进行处理。水温反映了海洋热能的强弱程度。因此，本研究采用南美周围海域的温度数据，通过卡诺机方法和温度梯度来收集海洋热能。结果与讨论:每年安装热机较稳定的地区是离巴拿马运河和特鲁希略以西子午线35°以上的地区。较弱的值出现在基多(赤道)附近;但在大西洋中处于中等位置，位于巴西福塔莱萨•德•萨•奥•约瑟夫•德•马卡帕以东15°。另一方面，真实气体的速度可以从平均海平面500.0 m以下的40.0 m/s变化到海面上的650.0 m/s，而人工气体的速度可以从20.0 m/s变化到400.0 m/s。结论:这项研究表明，在南美洲最温暖的海岸收获的能源，为邻近的人口带来了足够的能源。在ENSO期间(El Niño南方涛动)，太平洋水域的热能增加，因此输出性能会发生变化。

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Periodico Tche Quimica CHEMISTRY, MULTIDISCIPLINARY-

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