Study of CO2 Adsorptivity of Adsorbents under High Temperature and Pressure for Inorganic Oxide-CO2 Chemical Heat Pump

Fujio Watanabe; Hitoki Matsuda; Kyaw Kyaw; Masanobu Hasatani; Takayuki Shibata

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Study of CO2 Adsorptivity of Adsorbents under High Temperature and Pressure for Inorganic Oxide-CO2 Chemical Heat Pump

机译：无机氧化物-二氧化碳化学热泵在高温高压下吸附剂对二氧化碳的吸附性研究

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References(9) Cited-By(6) It has been evaluated that decomposition of carbonates can be used for storing and temperature-upgrading of thermal energy, and that efficient CO2 adsorbent, will play an important role in storing the decomposed product CO2. In this study, adsorptivity of CO2 by zeolite 13X and super activated carbon at 100–1013 kPa and 287.5–573 K were studied. Both adsorbents exhibit an Increase in adsorptivity with increase in pressures and with decrease in temperatures. It was found that the adsorptivity data of CO2 by zeolite 13X and super activated carbon can be most accurately represented by Freundlich’s equation. By using Freundlich’s constants, heats of adsorption were estimated and adsorption isosteres were also established on a pressure-temperature diagram in order to evaluate the operating states of the corresponding heat pump system.

机译：参考文献（9）Cited-By（6）据评估，碳酸盐的分解可用于存储和提高热能的温度，并且有效的CO2吸附剂将在存储分解产物CO2中发挥重要作用。在这项研究中，研究了13X沸石和超级活性炭在100-1013 kPa和287.5-573 K时对CO2的吸附性。两种吸附剂均随着压力的增加和温度的降低而显示出吸附性的增加。结果发现，13F沸石和超级活性炭对CO2的吸附数据可以用Freundlich方程最精确地表示。利用Freundlich常数估算吸附热，并在压力-温度图上建立吸附等位线，以评估相应热泵系统的运行状态。

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《Journal of Chemical Engineering of Japan》 |1996年第5期|共页
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Fujio Watanabe; Hitoki Matsuda; Kyaw Kyaw; Masanobu Hasatani; Takayuki Shibata;
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1. UTILIZATION OF HIGH TEMPERATURE HEAT FROM NUCLEAR REACT( USING INORGANIC CHEMICAL HEAT PUMP [J] . Y. KATO, D. SAKU, N. HARADA Progress in Nuclear Energy . 1998,第3a4期

机译：利用无机化学热泵从核反应中利用高温热
2. A comparative study on CO2 capture performance of vacuum-pressure swing adsorption and pressure-temperature swing adsorption based on carbon pump cycle [J] . Zhao Ruikai, Zhao Li, Deng Shuai, Energy . 2017,第octa15期

机译：基于碳泵循环的真空-变压吸附和变温-吸附CO2捕集性能对比研究
3. A study on the compressor frequency and optimal discharge pressure of the transcritical CO2 heat pump system [J] . Qin Xiang, Liu Huadong, Meng Xiangrui, International Journal of Refrigeration . 2019,第期

机译：跨临界CO2热泵系统压缩机频率和最优排出压力的研究
4. High temperature heat storage and temperature upgrading by means of BaO/CO2/BaCO3 type chemical heat pump [C] . Mitsuhiro Kubota, Fujio Watanabe, Masanobu Hasatani, International heat transfer conference;IHTC1998 . 1998

机译：通过BaO / CO2 / BaCO3型化学热泵进行高温储热和温度提升
5. Analysis and design of a solid adsorbent heat driven heat pump. [D] . Miles, Daniel Joseph. 1989

机译：固体吸附剂热驱动热泵的分析和设计。
6. Sustainable Biomass Glucose-Derived Porous Carbon Spheres with High Nitrogen Doping: As a Promising Adsorbent for CO2/CH4/N2 Adsorptive Separation [O] . Yao Li, Shiying Wang, Binbin Wang, 2020

机译：高氮掺杂的可持续生物质葡萄糖衍生的多孔碳球：作为有希望的CO2 / CH4 / N2吸附分离吸附剂
7. Study of a water-source CO2 heat pump for residential use: experimental discharge pressure control and performance analysis [O] . Yantong Li, Natasa Nord, Inge Håvard Rekstad, 2021

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8. Adsorptive Desulfurization of JP-8 Fuel Using Ag+/Silica Based Adsorbents at Room Temperature. [R] . Tran, D. T., Dunbar, Z. W., Chu, D. 2012

机译：室温下ag + /硅基吸附剂对Jp-8燃料的吸附脱硫。

Study of CO2 Adsorptivity of Adsorbents under High Temperature and Pressure for Inorganic Oxide-CO2 Chemical Heat Pump

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