1. Waste heat-driven water generator with optimized multi-cycle strategy for high water yieldFangfang Deng, Primož Poredoš, Jiaqi Yu, Xinge Yang, Zhihui Chen, Ruzhu Wang, 2024, original scientific article Keywords: atmospheric water harvesting, waste heat recovery, multi-cycle, sorption kinetics, water productivity Full text (file, 1,26 MB) This document has more files! More... |
2. High-yield solar-driven atmospheric water harvesting with ultra-high salt content composites encapsulated in porous membraneHe Shan, Quanwen Pan, Chengjie Xiang, Primož Poredoš, Qiuming Ma, Zhanyu Ye, Guodong Hou, Ruzhu Wang, 2021, original scientific article Keywords: atmospheric water harvesting, salt content, solution leakage, sorbent, membrane, hygroscopic salt Full text (file, 5,32 MB) This document has more files! More... |
3. Hygroscopic porous polymer for sorption-based atmospheric water harvestingFangfang Deng, Zhihui Chen, Chenxi Wang, Chengjie Xiang, Primož Poredoš, Ruzhu Wang, 2022, review article Keywords: hygroscopic porous polymer, sorption-based atmospheric water harvesting, sorption kinetics, sorption mechanism, structural optimization Full text (file, 5,27 MB) This document has more files! More... |
4. Exceptional water production yield enabled by batch-processed portable water harvester in semi-arid climateHe Shan, Chunfeng Li, Zhihui Chen, Wenjun Ying, Primož Poredoš, Zhanyu Ye, Quanwen Pan, Jiayun Wang, Ruzhu Wang, 2022, original scientific article Keywords: atmospheric water harvesting, nanocomposite sorbents, porous stuctures, advanced thermal engineering, field tests Full text (file, 3,42 MB) This document has more files! More... |
5. Sustainable water generationPrimož Poredoš, He Shan, Chenxi Wang, Fangfang Deng, Ruzhu Wang, 2022, review article Keywords: atmospheric water harvesting, continuous operation, radiative sky cooling materials, hygroscopic sorbents, advanced thermal engineering Full text (file, 1,42 MB) This document has more files! More... |
6. Modular all-day continuous thermal-driven atmospheric water harvester with rotating adsorption strategyZhao Shao, Zhi-Shuo Wang, Haotian Lv, Yu-Cheng Tang, Hongbin Wang, Shuai Du, Ruikun Sun, Xi Feng, Primož Poredoš, 2023, original scientific article Keywords: metal-organic frameworks, sorption materials, solar energy, atmospheric water harvesting, COMSOL simulations, modular design, continuous operation optimization Full text (file, 1,98 MB) This document has more files! More... |
7. High-performance solar-driven MOF AWH device with ultra-dense integrated modular design and reflux synthesis of ▫$Ni_2Cl_2(BTDD)$▫Zhao Shao, Yu-Cheng Tang, Haotian Lv, Zhi-Shuo Wang, Primož Poredoš, 2023, original scientific article Keywords: metal-organic frameworks, sorption materials, solar energy, atmospheric water harvesting, COMSOL simulations, modular design Full text (file, 4,54 MB) This document has more files! More... |
8. Photovoltaic-sorbent system for water and electricity generationZhao Shao, Primož Poredoš, Ruzhu Wang, 2024, other scientific articles Keywords: sorption materials, renewable energy sources, solar energy, atmospheric water harvesting, performance optimization, photovoltaics, waste heat utilization Full text (outside link) |
9. Harvesting thermal energy and freshwater from air through sorption thermal battery enabled by polyzwitterionic gelHe Shan, Ziya Zeng, Xinge Yang, Primož Poredoš, Jie Yu, Zhihui Chen, Ruzhu Wang, 2023, original scientific article Keywords: hydrogels, sorption materials, energy storage, atmospheric water harvesting, energy efficiency, renewable energy sources Full text (file, 4,17 MB) This document has more files! More... |
10. Radiative sky cooling thermal concentration with cooling power exceeding one kW per square meterPrimož Poredoš, He Shan, Chenxi Wang, Zhihui Chen, Zhao Shao, Fangfang Deng, Haoran Liu, Jiaqi Yu, Ruzhu Wang, 2024, original scientific article Keywords: materials for radiative sky cooling, radiative heat exchange, cooling, spectrally selective materials, heat transfer, cooling energy concentration, atmospheric water harvesting, advanced thermal engineering, renewable energy sources Full text (file, 5,47 MB) This document has more files! More... |