1. Huangxi Fu, Lizhi Zhang*, Jianchang Xu, Rongrong Cai. A dual-scale analysis of a desiccant wheel with a novel organic-inorganic hybrid adsorbent for energy recovery. Applied Energy 163 (2016) 167-179. (高水平论文, 中科院一区TOP) 2. Lizhi Zhang*, Huangxi Fu, Qirong Yang, Jianchang Xu. Performance comparisons of honeycomb-type adsorbent beds (wheels) for air dehumidification with various desiccant wall materials. Energy 65 (2014) 430-440. (高水平论文, 中科院一区TOP) (本论文被《Science》引用) 3. Huangxi Fu, Xiaohua Liu*. Review of the impact of liquid desiccant dehumidification on indoor air quality. Building and Environment 116 (2017) 158-172. (高水平论文, 中科院一区TOP) 4. Huangxi Fu, Xiaohua Liu*, Ying Xie, Jun Liu. Formaldehyde removal performance analysis of a liquid desiccant dehumidification system. Building and Environment 124 (2017) 283-293. (高水平论文, 中科院一区TOP) 5. Huangxi Fu, Xiaohua Liu*,Ying Xie, Yi Jiang. Experimental and numerical analysis on total heat recovery performance of an enthalpy wheel under high temperature high humidity working conditions. Applied Thermal Engineering 146 (2019) 482-494. (高水平论文, 中科院二区TOP) 6. Huangxi Fu, Qirong Yang, Lizhi Zhang*. Effects of material properties on heat and mass transfer in honeycomb-type adsorbent wheels for total heat recovery. Applied Thermal Engineering 118 (2017) 345-356. (高水平论文, 中科院二区TOP) 7. Huangxi Fu, Lizhi Zhang*. Heat and mass transfer in honeycomb-type adsorbent wheels for air dehumidification with various desiccant wall materials. International Heat Transfer Symposium 2014, Beijing, China. 8. 符黄喜, 张立志*. 全热回收转轮中的热质传递特性研究. 中国工程热物理年会, 2014, 西安. (荣获王补宣青年优秀论文奖). |