Artikel
Experimental study of heat transfer by water flowing through smooth and rough rock fractures
It is important to have an accurate understanding of heat transfer process of water flowing through fractures for geothermal energy extraction and utilization. We designed an experiment to study the convective heat transfer characteristics of distilled water pumped through manmade smooth and rough fractures in granite samples. The flow velocity, permeating pressure, confining pressure, inlet and outlet fluid temperature and rock outer-surface temperature were measured and recorded to calculate the heat transfer coefficient. The effects of volumetric flow rate, fracture surface roughness, and outer wall surface temperature on the convective heat transfer process were analyzed. The results indicate that fracture surface roughness has a great influence on the heat transfer characteristics of water flowing through rocks. Overall heat transfer intensity improved along with an increase in rock fracture surface roughness. Our results have implications for geothermal energy extraction and utilization.
- Language
-
Englisch
- Bibliographic citation
-
Journal: Energy Reports ; ISSN: 2352-4847 ; Volume: 5 ; Year: 2019 ; Pages: 1025-1029 ; Amsterdam: Elsevier
- Classification
-
Wirtschaft
- Subject
-
Enhanced geothermal system
Heat transfer
Rock fracture
- Event
-
Geistige Schöpfung
- (who)
-
Luo, Yinfei
Xu, Weilin
Lei, Yude
Wu, Ping
Qin, Guangxiong
Ba, Ruishou
- Event
-
Veröffentlichung
- (who)
-
Elsevier
- (where)
-
Amsterdam
- (when)
-
2019
- DOI
-
doi:10.1016/j.egyr.2019.07.018
- Handle
- Last update
-
10.03.2025, 11:41 AM CET
Data provider
ZBW - Deutsche Zentralbibliothek für Wirtschaftswissenschaften - Leibniz-Informationszentrum Wirtschaft. If you have any questions about the object, please contact the data provider.
Object type
- Artikel
Associated
- Luo, Yinfei
- Xu, Weilin
- Lei, Yude
- Wu, Ping
- Qin, Guangxiong
- Ba, Ruishou
- Elsevier
Time of origin
- 2019
Other Objects (12)
Rough surface : heat transfer and pressure drop
Turbulent fluid flow in rough rock fractures
Turbulent fluid flow in rough rock fractures
Smooth Rough Paths, Their Geometry and Algebraic Renormalization
Heat transfer
Fully developed turbulent smooth and rough channel and pipe flows
The Rough with the Smooth of the Light Cone String
Fully developed turbulent smooth and rough channel and pipe flows
Surface plasmons on smooth and rough surfaces and on gratings
On the rough-smooth interface in the two-periodic Aztec diamond
Engineering heat transfer
Transient heat transfer
Rough surface : heat transfer and pressure drop
Turbulent fluid flow in rough rock fractures
Turbulent fluid flow in rough rock fractures
Smooth Rough Paths, Their Geometry and Algebraic Renormalization
Heat transfer
Fully developed turbulent smooth and rough channel and pipe flows
The Rough with the Smooth of the Light Cone String
Fully developed turbulent smooth and rough channel and pipe flows
Surface plasmons on smooth and rough surfaces and on gratings
On the rough-smooth interface in the two-periodic Aztec diamond
Engineering heat transfer
Transient heat transfer
Rough surface : heat transfer and pressure drop
Turbulent fluid flow in rough rock fractures
Turbulent fluid flow in rough rock fractures
Smooth Rough Paths, Their Geometry and Algebraic Renormalization
Heat transfer
Fully developed turbulent smooth and rough channel and pipe flows
The Rough with the Smooth of the Light Cone String
Fully developed turbulent smooth and rough channel and pipe flows
Surface plasmons on smooth and rough surfaces and on gratings
On the rough-smooth interface in the two-periodic Aztec diamond
Engineering heat transfer