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Št. zadetkov: 14
Sustainable cooling with water generation
Primož Poredoš, Ruzhu Wang
Kratki znanstveni prispevek
Oznake: spectrally selective materials;sorption materials;radiative sky cooling;ventilation;cooling;heat pumps;desiccative heat pumps;energy efficiency;solar energy;sustainable energy source;
Leto: 2023 Vir: Fakulteta za strojništvo (UL FS)
Dehumidification with solid hygroscopic sorbents for low-carbon air conditioning
Primož Poredoš, He Shan, Ruzhu Wang
Kratki znanstveni prispevek
Oznake: prezračevanje;hlajenje;sorpcijska sredstva;energetska učinkovitost;air-conditioning;cooling;sorbent materials;energy efficiency;
Humidity’s impact on current and future greenhouse gas emissions associated with air conditioning has been shown in a recent issue of Joule. Here, we highlight challenges and opportunities in the utilization of advanced solid hygroscopic dehumidification materials for efficient cooling in next-gener ...
Leto: 2022 Vir: Fakulteta za strojništvo (UL FS)
Photovoltaic-sorbent system for water and electricity generation
Zhao Shao, Primož Poredoš, Ruzhu Wang
Kratki znanstveni prispevek
Oznake: sorpcijska sredstva;obnovljivi viri energije;energija sonca;atmosfersko pridobivanje vode;optimizacija delovanja;fotovoltaika;izraba odpadne toplote;sorption materials;renewable energy sources;solar energy;atmospheric water harvesting;performance optimization;photovoltaics;waste heat utilization;
Leto: 2024 Vir: Fakulteta za strojništvo (UL FS)
Sustainable water generation
Primož Poredoš, He Shan, Chenxi Wang, Fangfang Deng, Ruzhu Wang
Izvirni znanstveni članek
Oznake: pridobivanje vode iz atmosfere;kontinuirano obratovanje;materiali za sevalno hlajenje z nebom;higroskopska sorpcijska sredstva;napredni toplotni inženiring;atmospheric water harvesting;continuous operation;radiative sky cooling materials;hygroscopic sorbents;advanced thermal engineering;
Sorption-and radiative sky cooling-based atmospheric water harvesting (AWH) technologies hold promise to provide decentralized fresh water in highly remote and arid regions. Recentemergence of advancedenergy materials such ashygroscopic metal-organicframeworks, hydrogelsandnanoporous composite sorbe ...
Leto: 2022 Vir: Fakulteta za strojništvo (UL FS)
Highly efficient desiccant-coated heat exchanger-based heat pump to decarbonize rail transportation
Zhao Shao, Z. G. Wang, Primož Poredoš, T. S. Ge, Ruzhu Wang
Izvirni znanstveni članek
Oznake: toplotne črpalke;energetska učinkovitost;sorpcijska sredstva;desikativni prenosniki toplote;železniški promet;heat pumps;sorption materials;desiccant coated heat exchangers;air-conditioning;rail sector;
In the rail sector, air conditioning accounts for 30% of the total operational energy consumption, thus, it is crucial to enhance the efficiency of air conditioning units (ACUs) to reduce overall energy consumption. Traditional ACUs for train vehicles usually have a low coefficient of performance (C ...
Leto: 2023 Vir: Fakulteta za strojništvo (UL FS)
High-yielding and stable desalination via photothermal membrane distillation with free-flow evaporation channel
Yixiu Dong, Primož Poredoš, Qiuming Ma, Ruzhu Wang
Izvirni znanstveni članek
Oznake: membrane distillation;direct solar-heating;ultra-low temperature operation;photothermal membrane;energy efficiency;condensation heat re-use;
Leto: 2022 Vir: Fakulteta za strojništvo (UL FS)
Hygroscopic porous polymer for sorption-based atmospheric water harvesting
Fangfang Deng, Zhihui Chen, Chenxi Wang, Chengjie Xiang, Primož Poredoš, Ruzhu Wang
Izvirni znanstveni članek
Oznake: higroskopski porozni polimeri;sorpcijsko pridobivanje vode iz atmosphere;kinetika sorpcijskih materialov;sorpcijski mehanizmi;strukturna optimizacija;hygroscopic porous polymer;sorption-based atmospheric water harvesting;sorption kinetics;sorption mechanism;structural optimization;
Sorption-based atmospheric water harvesting (SAWH) holds huge potential due to its freshwater capabilities for alleviating water scarcity stress. The two essential parts, sorbent material and system structure, dominate the water sorption–desorption performance and the total water productivity for SA ...
Leto: 2022 Vir: Fakulteta za strojništvo (UL FS)
Passive thermal management of electronic devices using sorption-based evaporative cooling
Haoran Liu, Jiaqi Yu, Chenxi Wang, Ziya Zeng, Primož Poredoš, Ruzhu Wang
Izvirni znanstveni članek
Oznake: evaporativno hlajenje;sorpcijska sredstva;nanokompozitna higroskopska sredstva;CFD simulacije;upravljanje s toploto;elektronske naprave;evaporative cooling;sorption materials;nanocomposite hygroscopic materials;CFD simulations;thermal management;electronic devices;
Leto: 2023 Vir: Fakulteta za strojništvo (UL FS)
Scaled solar-driven atmospheric water harvester with low-cost composite sorbent
Zhao Shao, Haotian Lv, Primož Poredoš, Shiqiang Su, Ruikun Sun, Hongbin Wang, Shuai Du, Ruzhu Wang
Izvirni znanstveni članek
Oznake: atmospheric water harvesting;composite sorbent materials;solar energy;heat and mass transfer;energy efficiency;
Leto: 2024 Vir: Fakulteta za strojništvo (UL FS)
Exceptional water production yield enabled by batch-processed portable water harvester in semi-arid climate
He Shan, Chunfeng Li, Zhihui Chen, Wenjun Ying, Primož Poredoš, Zhanyu Ye, Quanwen Pan, Jiayun Wang, Ruzhu Wang
Izvirni znanstveni članek
Oznake: pridobivanje vode iz atmosfere;nanokompozitna sorpcijska sredstva;porozne strukture;napredno toplotno inženirstvo;terenski preizkusi;atmospheric water harvesting;nanocomposite sorbents;porous stuctures;advanced thermal engineering;field tests;
Sorption-based atmospheric water harvesting has the potential to realize water production anytime, anywhere, but reaching a hundred-gram high water yield in semi-arid climates is still challenging, although state-of-the-art sorbents have been used. Here, we report a portable and modularized water ha ...
Leto: 2022 Vir: Fakulteta za strojništvo (UL FS)
Št. zadetkov: 14
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