This report describes a set of experiments in a physical model study to explore plume transport and recirculation potential for a range of generic Ocean Thermal Energy Conversion (OTEC) plant designs and ambient conditions. Tests were conducted in a thermally-stratified 12 m x 18 m x 0.6 m basin, at an undistorted length scale ratio of 1:300, which allowed the upper 180 m of the ocean to be studied. Conditions which have been tested include a range of plant sizes (nominally 200 MWe - 600 MWe); a range of discharge configurations (mixed vs. non-mixed evaporator and condenser flows, multiple vs. radial slot discharge port(s), variation of discharge-intake separation and variation of discharge angle); and a range of ambient current speeds (0.15 - 1.0 m/s), and density profiles (surface mixed layers of 31 to 64 m). The tests described herein complement those reported previously (Adams et al., 1979) for a stagnant-ambient environment.
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机译:本报告描述了一组物理模型研究中的实验,以探索一系列通用海洋热能转化(OTEC)工厂设计和环境条件下的烟流运输和再循环潜力。测试是在热分层的12 m x 18 m x 0.6 m盆地中进行的,其长度比例比例为1:300,可以研究海洋的上部180 m。经过测试的条件包括一系列工厂规模(标称200 MWe-600 MWe);一系列的排放配置(蒸发器和冷凝器的混合流量与非混合流量,多个缝隙径向排放口,排放口-进气口间距的变化和排放角的变化);以及一系列的环境电流速度(0.15-1.0 m / s)和密度分布(31至64 m的表面混合层)。本文描述的测试是对先前报告的(Adams等,1979)在停滞环境中的测试的补充。
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