Performance analysis and experimental study of heat-source tower solution regeneration
By analyzing similarities and difference between the solution regeneration of a heat-source tower and desiccant solution regeneration,this paper points out that solution regeneration of a heat-source tower has the characteristics of small demands and that a regeneration rate is susceptible to outdoor ambient environments.A theoretical analysis is performed on the characteristics of a heat-source tower solution in different outdoor environments and different regeneration modes,and an experimental study is performed on variation rules of the solution regeneration rate of a cross-flow heat-source tower under different inlet parameters and operating parameters.The experimental results show that: in the operating regeneration mode,as the air volume was increased from 123 m3·h-1 to 550 m3·h-1,the system heat transfer amount increased from 0.42 kW to 0.78 kW,and the regeneration rate increased from 0.03 g·s-1 to 0.19 g·s-1.Increasing the solution flow may increase the system heat transfer amount; however,the regeneration rate decreased to a certain extent.In the regeneration mode when the system is idle,as the air volume was increased from 136 m3·h-1 to 541 m3·h-1,the regeneration rate increased from 0.03 g·s-1 to 0.1 g·s-1.The regeneration rate almost remained unchanged around 0.07 g·s-1 as the solution flow is increased.In the regeneration mode with auxiliary heat when the system is idle,increasing the air volume and increasing the solution flow required more auxiliary heat,thereby improving the solution regeneration rate.As the auxiliary heat was increased from 0.33 kW to 1.03 kW,the regeneration rate increased from 0.11 g·s-1 to 0.27 g·s-1.That is,increasing the auxiliary heat greatly improves the solution regeneration rate.
Solution regeneration Heat-source tower Auxiliary heat source Experiment
Caihua Liang Xiantai Wen Chengxing Liu Xiaosong Zhang
School of Energy and Environment,Southeast University,Nanjing,China
国际会议
桂林
英文
1-10
2013-07-16(万方平台首次上网日期,不代表论文的发表时间)