A novel building scale multi-section absorption heat exchanger (AHE) that is consist of a multi-section absorption heat pump and a plate heat exchanger was designed, developed and applied in district heating system to realize heat exchange from primary water to secondary water. The multi-section generating, condensing, absorbing and evaporating processes were designed to realize large external fluid inlet/outlet temperature difference in each component. The heat transfer loss can be reduced, and a low return primary water temperature can be reached to recover low grade waste heat as heat source. The performance of the prototype AHE was tested. The return primary water temperature was stable and was below 30 degrees C in the past two heating seasons, which was 10-15 K lower than inlet water temperature of secondary water. A temperature difference of 10 K-20 K in each component was realized. A pressure gradient from top to bottom was established to ensure stable fluid flow from top to bottom. The AHE has higher heat exchange effectiveness and better regulation performance compared with plate heat exchanger according to field test. And finally, the simulation model used to design the prototype machine was verified by the test results.

• 出版日期2016-11
• 单位清华大学