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Radiative sky cooling thermal concentration with cooling power exceeding one kW per square meter
ID
Poredoš, Primož
(
Avtor
),
ID
Shan, He
(
Avtor
),
ID
Wang, Chenxi
(
Avtor
),
ID
Chen, Zhihui
(
Avtor
),
ID
Shao, Zhao
(
Avtor
),
ID
Deng, Fangfang
(
Avtor
),
ID
Liu, Haoran
(
Avtor
),
ID
Yu, Jiaqi
(
Avtor
),
ID
Wang, Ruzhu
(
Avtor
)
URL - Izvorni URL, za dostop obiščite
https://pubs.rsc.org/en/content/articlelanding/2024/ee/d3ee03214k
PDF - Predstavitvena datoteka. Vsebina dokumenta nedostopna do 14.02.2025.
MD5: B193420D0612DCDC8C84236AC416B7EE
Galerija slik
Izvleček
The world's first demonstration of passive radiative cooling under the sun in 2014 attracted substantial attention due to its ubiquitous and passive nature. Numerous nanophotonic and metamaterials capable of radiative sky cooling have been reported over the past decade. However, the cooling power density of such materials is approximately one magnitude lower (100 W m▫$^{−2}$▫) compared to terrestrial solar irradiation. Furthermore, improved optical characteristics could yield a modest increase in cooling power density due to the blackbody radiation limit. We report a rationally designed AsymSkyCool method (Asymmetrically sized heat-source-on-radiative-Sky-Cooling-coated-substrate) for radiative sky cooling thermal concentration (tcRC). The tcRC concept yields over 2000 W m▫$^{−2}$▫ at night and close to 1000 W m▫$^{−2}$▫ at 493 W m▫$^{−2}$▫ solar irradiation. The nearly tenfold improvement over the state-of-the-art sky cooling-based concentrators is enabled by advanced thermal management utilizing radiative energy concentration and localization. As climate plays a crucial role in the radiative sky cooling material performance, the concept has been experimentally verified in three geolocations, including Ljubljana, Slovenia (46.04°N), Shanghai, China (31.02°N), and Kunming, China (24.86°N). This work provides new insights into the usability of radiative sky cooling materials for thermal energy-intensive applications, such as high-power electronics cooling, radiative cooling-assisted sorbent- and solely radiative cooling-based atmospheric water harvesting that will unlock substantial benefits for advancements in energy, water, and food nexus.
Jezik:
Angleški jezik
Ključne besede:
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
Vrsta gradiva:
Članek v reviji
Tipologija:
1.01 - Izvirni znanstveni članek
Organizacija:
FS - Fakulteta za strojništvo
Status publikacije:
Objavljeno
Različica publikacije:
Recenzirani rokopis
Leto izida:
2024
Št. strani:
Str. 2336–2355
Številčenje:
Vol. 17, iss. 6
PID:
20.500.12556/RUL-155242
UDK:
697
ISSN pri članku:
1754-5706
DOI:
10.1039/d3ee03214k
COBISS.SI-ID:
187367171
Datum objave v RUL:
21.03.2024
Število ogledov:
605
Število prenosov:
35
Metapodatki:
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Objavi na:
Gradivo je del revije
Naslov:
Energy & environmental science
Založnik:
Royal Society of Chemistry
ISSN:
1754-5706
COBISS.SI-ID:
519833369
Sekundarni jezik
Jezik:
Slovenski jezik
Ključne besede:
materiali za sevalno hlajenje z nebom
,
sevalna izmenjava
,
hlajenje
,
spektralno selektivni materiali
,
prenos toplote
,
koncentracija hladilne energije
,
atmosfersko pridobivanje vode
,
napredni toplotni inženiring
,
obnovljivi viri energije
Projekti
Financer:
Drugi - Drug financer ali več financerjev
Program financ.:
Research Fund for International Young Scientists of the National Natural Science Foundation of China
Številka projekta:
2150410421
Financer:
Drugi - Drug financer ali več financerjev
Program financ.:
the Foundation for Innovative Research Groups of the National Natural Science Foundation of China
Številka projekta:
51521004
Financer:
Drugi - Drug financer ali več financerjev
Program financ.:
Fundamental Research Funds for the Central Universities, Shanghai Jiao Tong University
Številka projekta:
23X010201008
Financer:
Drugi - Drug financer ali več financerjev
Program financ.:
ITEWA (Innovative Team on Energy–Water–Air Nexus)
Financer:
ARIS - Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije
Številka projekta:
P2-0223
Naslov:
Prenos toplote in snovi
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