The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir
The heat transfer phenomena of supercritical CO2 are experimentally investigated in a horizontal tube for improving the efficiency of CO2-EGS.This study discuss the experimental verification of the numerical simulations. The experiment is conducted for the pressure, the flow rate, and particle size...
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2016-01-01
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Series: | MATEC Web of Conferences |
Online Access: | http://dx.doi.org/10.1051/matecconf/20166004010 |
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doaj-19e4e6cd5d1b4a63bf971371804dcd142021-03-02T10:10:28ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01600401010.1051/matecconf/20166004010matecconf_iccbs2016_04010The experimental study of heat extraction of supercritical CO2 in the geothermal reservoirHuang Cyun-Jie0Hsieh Jui-Ching1Lin David T. W.2Kuo Jenn-Kun3Hu Yuh-Chung4Institute of Mechatronic System Engineering, National University of TainanIndustrial Technology Research Institute, Green Energy and Environment Research LaboratoriesInstitute of Mechatronic System Engineering, National University of TainanDepartment of Greenergy, National University of TainanDepartment of Mechanical and Electromechanical Engineering, National Ilan UniversityThe heat transfer phenomena of supercritical CO2 are experimentally investigated in a horizontal tube for improving the efficiency of CO2-EGS.This study discuss the experimental verification of the numerical simulations. The experiment is conducted for the pressure, the flow rate, and particle size 1.54mm. In addition, the experiment and simulation that the maximum heat extraction is occurred at the 9MPa pressure and mass flow rate of 0.00109 kg/s. The maximum specific heat extraction at 9MPa and flow rate of 0.00082 kg/s. The results show that the numerical model has been experimentally verified of the feasibility. Furthermore, the pseudo-critical point had a significant influence on the heat extraction, temperature difference and specific heat extraction.http://dx.doi.org/10.1051/matecconf/20166004010 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Huang Cyun-Jie Hsieh Jui-Ching Lin David T. W. Kuo Jenn-Kun Hu Yuh-Chung |
spellingShingle |
Huang Cyun-Jie Hsieh Jui-Ching Lin David T. W. Kuo Jenn-Kun Hu Yuh-Chung The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir MATEC Web of Conferences |
author_facet |
Huang Cyun-Jie Hsieh Jui-Ching Lin David T. W. Kuo Jenn-Kun Hu Yuh-Chung |
author_sort |
Huang Cyun-Jie |
title |
The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir |
title_short |
The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir |
title_full |
The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir |
title_fullStr |
The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir |
title_full_unstemmed |
The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir |
title_sort |
experimental study of heat extraction of supercritical co2 in the geothermal reservoir |
publisher |
EDP Sciences |
series |
MATEC Web of Conferences |
issn |
2261-236X |
publishDate |
2016-01-01 |
description |
The heat transfer phenomena of supercritical CO2 are experimentally investigated in a horizontal tube for improving the efficiency of CO2-EGS.This study discuss the experimental verification of the numerical simulations. The experiment is conducted for the pressure, the flow rate, and particle size 1.54mm. In addition, the experiment and simulation that the maximum heat extraction is occurred at the 9MPa pressure and mass flow rate of 0.00109 kg/s. The maximum specific heat extraction at 9MPa and flow rate of 0.00082 kg/s. The results show that the numerical model has been experimentally verified of the feasibility. Furthermore, the pseudo-critical point had a significant influence on the heat extraction, temperature difference and specific heat extraction. |
url |
http://dx.doi.org/10.1051/matecconf/20166004010 |
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