An Ocean Thermal Energy Conversion (OTEC) power plant built in Hawaii in 1987 was designed to operate between the temperature limits of 86°F at the ocean surface and 41°F at a depth of 2100 ft. About...


An Ocean Thermal Energy Conversion (OTEC) power plant built in Hawaii in 1987 was designed<br>to operate between the temperature limits of 86°F at the ocean surface and 41°F at a depth<br>of 2100 ft. About 13,300 gpm of cold seawater was to be pumped from deep ocean through a<br>40-in-diameter pipe to serve as the cooling medium or heat sink. If the cooling water<br>experiences a temperature rise of 6°F and the thermal efficiency is 2.5 percent, determine the<br>amount of power generated. Take the density of seawater to be 64 lbm/ft³.<br>65°F Clear<br>DELL<br>

Extracted text: An Ocean Thermal Energy Conversion (OTEC) power plant built in Hawaii in 1987 was designed to operate between the temperature limits of 86°F at the ocean surface and 41°F at a depth of 2100 ft. About 13,300 gpm of cold seawater was to be pumped from deep ocean through a 40-in-diameter pipe to serve as the cooling medium or heat sink. If the cooling water experiences a temperature rise of 6°F and the thermal efficiency is 2.5 percent, determine the amount of power generated. Take the density of seawater to be 64 lbm/ft³. 65°F Clear DELL

Jun 09, 2022
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