Conceive on GSHP Applied in the Filed of Preventing Highway Surface Freezing and Reducing Disaster

Yan Zhao Li; Qing Hua Cai; Jin Ming Zhai; Chang Sheng Guan

doi:10.4028/www.scientific.net/AMR.518-523.1018

Paper Titles

The Effect of UV Disinfection on Biological Stability in Drinking Water Supply Network
p.1001

The Effects of Different Life Styles on Heart Rate Changes in Different Stage when Riding the Vertical Drop Facility
p.1006

The Effects of Different Relative Humidity with Low Temperature on Skin Physiology
p.1010

The Game Analysis on Moral Hazard in the Safety Supervision of Nuclear Power
p.1014

Conceive on GSHP Applied in the Filed of Preventing Highway Surface Freezing and Reducing Disaster
p.1018

Electromagnetic Radiation on Human Health Hazards and Protective Measures in Modern Society
p.1022

Environmental Factors on the Impact of Young People with Asthma in Northern Taiwan Coastal and Metropolitan Areas
p.1027

Selection of Cd-Excluder Rice in Shenyang Region of China for Food Safety
p.1033

The Analysis of Environmental Safety in Preparing Superfine Powder
p.1040

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 518-523Conceive on GSHP Applied in the Filed of...

Conceive on GSHP Applied in the Filed of Preventing Highway Surface Freezing and Reducing Disaster

Abstract:

In this paper, it is briefly introduced the present research situation about the technology of ground source heat pumps (GSHP) at home and abroad. It is described the basic advantages of GSHP technology. It is put forward the idea to apply the GSHP technology to the filed of preventing highway surface freezing and reducing disaster. It is pointed out that the main problems need to research when applying GSHP technology to prevent highway surface freezing and reduce disaster. It is also expected the broad application prospect of GSHP technology applying to the field of preventing highway surface freezing and reducing disaster.

You might also be interested in these eBooks

Advances in Environmental Science and Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 518-523)

Pages:

1018-1021

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.518-523.1018

Citation:

Cite this paper

Online since:

May 2012

Authors:

Yan Zhao Li, Qing Hua Cai, Jin Ming Zhai, Chang Sheng Guan

Keywords:

Ground Source Heat Pump (GSHP), Highway Surface, Prevent Freezing, Reduce Disaster

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Zuiliang MA, Yue LV. System design and application of GSHP. Beijing: China machine press. 2007 (in Chinese)

Google Scholar

[2] Yue LV, Ran MO, Mo ZHOU. China GSHP technology application development report (2005～2006). Construction and Design of Project,2007(9):4-11 (in Chinese)

Google Scholar

[3] Mustafa Inalli, Hikmet Esen. Experimental Thermal Performance Evaluation of a Horizontal Ground-source Heat Pump System [J]. Applied Thermal Engineering, 2004, 24: 2219-2232

DOI: 10.1016/j.applthermaleng.2004.01.005

Google Scholar

[4] James W. Stevens. Optimal Placement Depth for Air-ground Heat Transfer Systems[J] . Applied Thermal Engineering, 2004, 24:149-157

DOI: 10.1016/j.applthermaleng.2003.09.004

Google Scholar

[5] Onder Ozgener, Arif Hepbasli, Leyla Ozgener. A Parametric Study on the Exergoeconomic Assessment of a Vertical Ground-coupled (Geothermal) Heat Pump System [ J ]. Building and Environment, 2007, 42:1503-1509

DOI: 10.1016/j.buildenv.2005.12.019

Google Scholar

[6] Hikmet Esen, Mustafa Inalli, Mehmet Esen. Numerical and Experimental Analysis of a Horizontal Ground-coupled Heat Pump System [J]. Building and Environment, 2007, 42:1126-1134

DOI: 10.1016/j.buildenv.2005.11.027

Google Scholar

[7] Katsura T. Method of Calculation of the Ground Temperature for Multiple Ground Heat Exchangers[J]. Appl Therm Eng, (2008)

Google Scholar

[8] Heyi ZENG, Zhaohong FANG. A fluid temperature model for vertical U-tube geothermal heat exchangers. Journal of Shandong Institute of Architecture and Engineering, 2002,17(1):7-11 (in Chinese)

Google Scholar

[9] Xiao-hong REN; Chun-wu SUN; Yan-hui HU. A Three-Dimensional Numerical Model and Experimental Research for U-Tube Ground Heat Exchanger in Heating Operation. Journal of Chongqing Architecture University, 2004,26(5): 90-95 (in Chinese)

Google Scholar

[10] Nairen DIAO, Zhaohong FANG. Simulation Modeling and Design Optimization of Vertical Ground Heat Exchanger. Construction Science and Technology, 2004(7):32-33 (in Chinese)

Google Scholar

[11] Li-xia LV; Su-fen LI; Liang LI. Numerical simulation of the soil temperature field around vertically buried pipe of a ground-source heat pump. Energy Conservation, 2005(6):6-9 (in Chinese)

Google Scholar

[12] Qing GAO; Ming LI; Yan RUN. Operation strategy on heat transter enhancement in the underground multi-boreholes. Acta Energiae Solaris Sinica, 2006,27(1):83-89 (in Chinese)

Google Scholar

[13] Shichang JI, Pingfang HU. Research on thermal disturbance among U-vertical buried multi-pipes. Refrigeration and Air-Condition, 2007,7(4):35-37 (in Chinese)

Google Scholar

[14] Zong-wei HAN; Mao-yu ZHENG; Fan-hong KONG. Operation model of solar-assisted ground source heat pump heating system with phase change storage. Renewable Energy Resources, 2007,25(4):10-14 (in Chinese)

Google Scholar

[15] Chang-sheng GUAN; Zhuo-dong LIU. Research on Random Heat Conduction and Reliability Design of Heat Exchanger of Ground Source Heat Pumps. The World of Building Materials, 2009, 30(4):77-81 (in Chinese).

Google Scholar