Development of magnesium oxide/water chemical heat pump

氧化镁/水化学热泵的研制

• 批准号: 05558062
• 负责人: YOSHIZAWA Yoshio
• 金额: $ 10.11万
• 依托单位: TOKYO INSTITUTE OF TECHNOLOGY
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for Developmental Scientific Research (B)
• 财政年份: 1993
• 资助国家: 日本
• 起止时间: 1993 至 1995
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-05558062/
• 关键词: Heat pump; Energy saving; Magnesium hydroxide; Magnesium oxide; Dehydration; Hydration; 省エネルギ; 気固反応

A laboratory scale system of Magnesium oxide/water chemical heat pump was designed for the heat output o 100W class. The performance of the repetitive operation was demonstrated because the durability of the reactant material and the system to the repetitive operation was important matter for the heat pump development.A new reactant material which had a durability to repetitive reaction had been developed in this work. The material was used for the laboratory heat pump.On the heat pump experiment, the fraction reacted and heat output were measured directly and simultaneously in the experiment. The former was followed by measurements of weight change with a load cell. The latter was measured with a heating tube installed in the reactor. From the first to the third repetitive operation, the decrease of reactivity about 20% was measured, but after the time to the tenth, the reactivity was stable. The result showed the feasibility of the heat pump for practical repetitive utilization.On the first repetition, it was shown that the system was able to store a thermal energy at about 430ﾟC and to supply a thermal energy at 75-120ﾟC from a low temperature steam at 70-90ﾟC,and that the thermal power exceeded 50-100w per 1kg of initial magnesium hydroxide during the first 60minutes. The profile of reaction rate and heat transfer in the reactor were simulated by two-dimensional numerical analysis. The results of the experiments and the simulations showed that the heat pump had enough thermal storage capacity and thermal power as a commercial system.

设计了一套100W级的氧化镁/水化学热泵实验系统。由于反应物和系统对重复运行的耐久性是热泵发展的重要问题，因此证明了重复运行的性能。研制了一种耐重复反应的新型反应物。该材料用于实验室热泵。在热泵实验中，直接同时测量了反应分数和热量输出。前者之后是用称重传感器测量重量变化。后者是用安装在反应器中的加热管测量的。从第一次到第三次重复操作，反应性下降了约20%，但在第10次重复操作后，反应性保持稳定。结果表明，热泵在实际重复利用中是可行的。第一次重复实验表明，该系统能够在430 -90℃的温度下储存热能，并能从70-90℃的低温蒸汽中提供75-120℃的热能，并且在最初的60分钟内，每1kg初始氢氧化镁的热功率超过50-100w。采用二维数值分析方法模拟了反应器内的反应速率和传热曲线。实验和仿真结果表明，该热泵系统具有足够的蓄热能力和热功率。

项目成果

Yukitaka Kato, Takuya Honda and Atsushi Kanzawa: ""Kinetic measurement of the isobutene/water/tert-butanol chemical heat pump ; dehydration of tert-butanol"" Internat.J.Energy Res.19 (in press). (1996)

Yukitaka Kato、Takuy​​a Honda 和 Atsushi Kanzawa：“异丁烯/水/叔丁醇化学热泵的动力学测量；