최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기大韓建築學會論文集. Journal of the architectural institute of korea. 構造系, v.34 no.3 = no.353, 2018년, pp.87 - 93
배상무 (부산대학교 대학원) , 김홍교 (부산대학교 학부과정) , 남유진 (부산대학교 건축공학과)
Ground source heat pump(GSHP) system is one of the high efficiency heat source systems which utilizes the constant geothermal energy of a underground water or soil. However, the design of conventional GSHP system in the domestic market is dependent on the experience of the designer and the installer...
Hahn, J. S., Han, H. S., & Hahn, C. (2010). Geothermal Energy, Seoul, Hanlimwon, 1-4.
Casasso, A., & Sethi, R. (2014). Efficiency of Closed Loop Geothermal Heat Pumps: A Sensitivity Analysis. Renewable Energy, 62, 737-746.
Liu, Y., Zhang, Y., Gong, S., Wang, Z., & Zhang, H. (2015). Analysis on the Performance of Ground Heat Exchangers in Ground Source Heat Pump Systems based on Heat Transfer Enhancements. Procedia Engineering, 121, 19-26.
Mensah, K., Jang, Y., & Choi, J. M. (2017). Assessment of Design Strategies in a Ground Source Heat Pump System. Energy and Buildings, 138, 301-308.
Kong, X. R., Deng, Y., Li, L., Gong, W. S., & Cao, S. J. (2017) Experimental and Numerical Study on the Thermal Performance of Ground Source Heat Pump with a Set of Designed Buried Pipes. Applied Thermal Engineering, 114, 110-117.
Cho, H., & Choi, J. M. (2014) The Quantitative Evaluation of Design Parameter's Effects on a Ground Source Heat Pump System. Renewable Energy, 65, 2-6.
Lim, H. J., Kong, H. J., Song, Y. S., & Park, S. K. (2005) Thermal Conductivity Measurement of Grouting Materials for Geothermal Heat Exchanger. Korean Journal of Air-Conditioning and Refrigeration Engineering, 17(4), 364-370.
Min, K. C., & Choi, J. H. (2011) Effect of the Design Parameters of Geothermal Heat Exchanger Design Length. Transactions of the Korea society of Geothermal Energy Engineering, 7(2), 10-15.
Park, J., & Park, K. S. (2015) Analysis of Earth Design Parameter and Geothermal Heat Exchanger Length in Geothermal System. Transaction of the Korea society of Geothermal Energy Engineers, 11(3), 1-6.
Geothermal Design Studio. (2007), The Ground Loop Design User's Manual, USA, Gaia Geothermal, 15-17.
School of Mechanical and Aerospace Engineering Oklahoma State University, (2016), GLHEPro 5.0 User's Guide, USA, International Ground Source Heat Pump Association, 3-5.
Spitler, J. D. (2000), GLHEPRO - A Design Tool for Commercial Building Ground Loop Heat Exchangers, Proceedings of the Fourth International Heat Pumps in Cold Climates Conference, 17-18.
Sarbu, L., & Sebarchievici, C. (2015), Ground-Source Heat Pumps: Fundamentals, Experiments and Applications, UK, Textstream, 85-87.
Yavuzturk, C., & Spitler, J. D. (1999), A Short Time Step Response Factor Model For Vertical Ground Loop Heat Exchangers. ASHRAE Transactions, 105(2), 475-485.
Javed, S., & Spitler, J. (2017) Accuracy of Borehole Thermal Resistance Calculation Methods for Grouted Single U-tube Ground Heat Exchangers, Applied Energy, 187, 790-806.
Philippe, M., Bernier, M., & Marchio, D. (2010) Vertical Geothermal Borefields, American Society of Heating, Refrigerating and Air-Conditioning Engineers, 20-21
Geothermal Energy Education Center(GTEEC). (2011), Geothermal System Design, Seoul, kkwbooks, 139-141.
Korea Meteorological Administraion(KMA), https://data.kma.go.kr
Spilter, J. D., Fisher, D. E., & Zietlow D. C. (1989) A Primer on the Use of Influence Coefficients in Building Simulation. Proceedings of the Building Simulation conference. 229-304.
Kim, K. A., Park, J. S., Yu, K. H., & Moon, H. J. (2015) Sensitivity Analysis of Building Envelope of Non-Dwelling Buildings. Journal of the Korean Solar Energy Society, 35(1), 53-60.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.