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アンモニア/水を作動流体としてシェル&プレート式熱交換器を用いた海洋温度差発電の性能評価 : 熱源の温度および流量の影響(熱工学,内燃機関,動力など)

発表形態:
原著論文
主要業績:
主要業績
単著・共著:
共著
発表年月:
2008年02月
DOI:
会議属性:
指定なし
査読:
有り
リンク情報:

日本語フィールド

著者:
安永 健;池上 康之;門出 政則
題名:
アンモニア/水を作動流体としてシェル&プレート式熱交換器を用いた海洋温度差発電の性能評価 : 熱源の温度および流量の影響(熱工学,内燃機関,動力など)
発表情報:
日本機械学會論文集. B編 巻: 74 号: 738 ページ: 445452
キーワード:
概要:
Performance test for ocean thermal energy conversion system was carried out using ammonia/water mixture as working fluid. The system used a shell and plate type heat exchanger as evaporator and condenser. The effects of temperature difference between heat sources and mass flow rate on turbine power were confirmed. In the evaluation of the system, we adopted the ratio of net power since the pump powers for the heat resources play an essential role in collecting heat. The experimental results were compared with theoretical ones which were derived by maximal power output using ideal heat exchanger. The experimental result shows that the ratio of net power has the maximum value at an optimum condition due to a large amount of pump power consumption with an increase in mass flow rates. In the present test plant, the maximal net power reached about 1.2 kW and then the ratio of net power was around 5.6%.
抄録:

英語フィールド

Author:
YASUNAGA Takeshi;IKEGAMI Yasuyuki;MONDE Masanori
Title:
Performance Test of OTEC with Ammonia/water as Working Fluid Using Shell and Plate Type Heat Exchangers : Effects of Heat Source Temperature and Flow Rate(Thermal Engineering)
Announcement information:
Vol: 74 Issue: 738 Page: 445452
An abstract:
Performance test for ocean thermal energy conversion system was carried out using ammonia/water mixture as working fluid. The system used a shell and plate type heat exchanger as evaporator and condenser. The effects of temperature difference between heat sources and mass flow rate on turbine power were confirmed. In the evaluation of the system, we adopted the ratio of net power since the pump powers for the heat resources play an essential role in collecting heat. The experimental results were compared with theoretical ones which were derived by maximal power output using ideal heat exchanger. The experimental result shows that the ratio of net power has the maximum value at an optimum condition due to a large amount of pump power consumption with an increase in mass flow rates. In the present test plant, the maximal net power reached about 1.2 kW and then the ratio of net power was around 5.6%.


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