Aims & Scope | Editorial Board| Review Policy | Ethical Policy | Open Access | Contact us
Archives | Search

The Influence of Groundwater Flow on the Performance of an Aquifer Thermal Energy Storage (ATES) System
Hahn, Jeongsang;Lee, Juhyun;Kiem, Youngseek;Lee, Kwangjin;Hong, Kyungsik;
Hanseo Engineering Inc.;Hanseo Engineering Inc.;Hanseo Engineering Inc.;Hanseo Engineering Inc.;Nexgeo Inc.;
지하수류가 대수층 열저장 시스템의 성능에 미치는 영향(3)
한정상;이주현;김영식;이광진;홍경식;
(주)한서엔지니어링;(주)한서엔지니어링;(주)한서엔지니어링;(주)한서엔지니어링;(주)넥스지오;

References

1. Diersch, H.J.G., Bauer, D., Heaidmann, W., Ruhakk, W., and Schatzl, P., 2010, Finite Element Formulation for Borehole Heat Exchangers in Modeling Geothermal Heating Systems by FEFLOW. FEFLOW white papers, Vol.V, DHI-WASY GmbH, Berlin, Germany, p.86-95.
2. Diersch, H.J.G., Bauer, D., Heaidmann,W., Ruhakk, W., and Schatzl, P., 2011a, Finite element modeling of borehole heat exchangers systems: Part 1, Fundmentals, Comput. Geosci., 37(8), 1122-1135.
3. Diersch, H.J.G., 2014, FEFLOW-Finite Element Modeling of Flow, Mass and Transport in Porous and Fracturing Media, Springer-Verlag, Berlin Heidelberg, Germany, p.39-148.
4. Hahn, J.S. and Hahn, C., 2016, Hydrogeology and Groundwater Modelling, Naeha Publishing Co., Ltd, Seoul, Korea, p.440-445.
5. Hahn, J.S., Hahn, Chan., Yoon, Y.S., and Kiem, Y.S., 2016, An influence of groundwater flow on performance of closed borehole heat exchangers (Part-1), J. Soil Groundwater Environ., 21(3), 64-81.
6. Iihola, H., 1990, ATES in Finland, Report to ATES Water Well Workshop, Univ. of Alabama, Tuscaloosa, Nov. Ed., p.57-59.
7. Margen, P.H., 1959, Thermal Storage in Rock Chamber, Nuclear Engineering (Great Britain), 4, p.259.
8. Meyer, C.F. and Todd, D.K., 1974, Heat storage wells - An answer to energy conservation and thermal pollution, Water Well Journal, 25, 35-41.
9. Penrod, E.B., Gard, O.W., Jones, C.D., Collier, H.E., and Batey, R.N., 1949, Earth Heat Pump Research, Univ. Kentucky Bulletin 14, December, Lexington, KY.
10. Sanner, C., Karytsas, D., Mendrinos and Rybach, L., 2003, Current status of ground source heat pumps and underground thermal energy storage in Europe, Geothermics, 32(6), 579-588.
11. Snijders, A.L., 1991, IEA Energy Storage Programme, Annex VI, Environmental and Chemical Aspects of ATES and Research and Development of Water Treatment Methods, Proc. 5th Int. Conf. Energy Storage Thermastock 91, NOVEM, Utrecht, The Netherlands, 4, p.131-137.
12. Tian Sang, 1980, Underground Water Storage Introduced in Chinese Cities, STES Newsletter, 2, p.3.
13. Wagner, R., Koch, M., and Adinolfi, M., 1988, Chemische und Biologische Prozesse in Aquifer Warmespeichern, Stuttgart Ber. Siedlungwasserwirtsch, No. 10, p.1.
14. Willemsen, A., 1992, PHREEQM-2D: A Computer Model to Calculate Geochemical Reactions During Transport of Groundwater; Model Description and Application of the Utrecht University ATES, Proc. 27th IECEC, San Diego, CA, USA, p.115-124.

This Article

2017; 22(4): 9-26

Published on Aug 31, 2017
10.7857/JSGE.2017.22.4.009
Received on Jan 18, 2017
Accepted on Jun 23, 2017

Services

References
Pdf

Shared

Correspondence to

E-mail: