对基于AMTEC(Alkali Metal Thermal-to-Electric Converter,碱金属热电转换器)的毛细多孔吸液芯建立轴对称恒温相变模型,通过求解多孔芯区及液体通道区热质传输控制方程得到毛细多孔芯中的流动与传热特性,分析了工质流量、入口温度、多...对基于AMTEC(Alkali Metal Thermal-to-Electric Converter,碱金属热电转换器)的毛细多孔吸液芯建立轴对称恒温相变模型,通过求解多孔芯区及液体通道区热质传输控制方程得到毛细多孔芯中的流动与传热特性,分析了工质流量、入口温度、多孔芯厚度、孔隙率和有效孔径等参数对压力、速度和温度分布的影响;同时通过分析最大毛细力与回路压降之间的关系,给出了多孔芯有效孔径的适用范围和提高多孔芯性能的改进措施。研究结果表明:与三维两相流蒸发模型比较,文中的模型具有较好的预测准确性;以碱金属为工质的毛细多孔吸液芯和液体通道内的流动与传热特性与传统工质存在不同。展开更多
This paper studies the reaction between alkaline metal ions Li+, Na+ and K+ and ASR (alkali-silica reaction) reactive aggregates to determine whether Li+ can substitute Na+ and K+ that are unified in cement pa...This paper studies the reaction between alkaline metal ions Li+, Na+ and K+ and ASR (alkali-silica reaction) reactive aggregates to determine whether Li+ can substitute Na+ and K+ that are unified in cement paste. Reactive aggregates use meta-sandstone from eastern Taiwan and Pyrex glass. Non-reactive aggregates use siliceous sand. The results show that the dissolved amount of SiO2 is lower when the reactive aggregates are immersed in an 80 ℃1 N LiOH'H20 solution than in NaOH and KOH solutions. The reduced amounts of OH and Li+ in the solution are also higher than those in the NaOH and KOH solutions. These results reveal that reactive SiO2 can react with LiOH to form a reactant with low water solubility. When the powder of the cement paste is immersed in an 80 ℃ 1 N LiOH-H2O solution, the amounts of free Na+ and K+ in the solution are higher than those in water. The increased amount increases with the duration of immersion. The amount of Li+ in the solution also decreases with the duration of immersion. These results reveal that Li+ can substitute Na+ and K+ that are unified in cement paste, which indicates that ASR can be prevented with the existence of Li+.展开更多
文摘对基于AMTEC(Alkali Metal Thermal-to-Electric Converter,碱金属热电转换器)的毛细多孔吸液芯建立轴对称恒温相变模型,通过求解多孔芯区及液体通道区热质传输控制方程得到毛细多孔芯中的流动与传热特性,分析了工质流量、入口温度、多孔芯厚度、孔隙率和有效孔径等参数对压力、速度和温度分布的影响;同时通过分析最大毛细力与回路压降之间的关系,给出了多孔芯有效孔径的适用范围和提高多孔芯性能的改进措施。研究结果表明:与三维两相流蒸发模型比较,文中的模型具有较好的预测准确性;以碱金属为工质的毛细多孔吸液芯和液体通道内的流动与传热特性与传统工质存在不同。
文摘This paper studies the reaction between alkaline metal ions Li+, Na+ and K+ and ASR (alkali-silica reaction) reactive aggregates to determine whether Li+ can substitute Na+ and K+ that are unified in cement paste. Reactive aggregates use meta-sandstone from eastern Taiwan and Pyrex glass. Non-reactive aggregates use siliceous sand. The results show that the dissolved amount of SiO2 is lower when the reactive aggregates are immersed in an 80 ℃1 N LiOH'H20 solution than in NaOH and KOH solutions. The reduced amounts of OH and Li+ in the solution are also higher than those in the NaOH and KOH solutions. These results reveal that reactive SiO2 can react with LiOH to form a reactant with low water solubility. When the powder of the cement paste is immersed in an 80 ℃ 1 N LiOH-H2O solution, the amounts of free Na+ and K+ in the solution are higher than those in water. The increased amount increases with the duration of immersion. The amount of Li+ in the solution also decreases with the duration of immersion. These results reveal that Li+ can substitute Na+ and K+ that are unified in cement paste, which indicates that ASR can be prevented with the existence of Li+.
