The cooling seasonal performance factor of a hybrid ground-source heat pump with parallel and serial configurations

Applied Energy

Volumn 102, Issue , 2013, Pages 877-884

  Park, Honghee ^a   Lee, Joo Seoung ^a   Kim, Wonuk ^a   Kim, Yongchan ^a  

^a Korea University   (South Korea)

Author keywords

Configuration; Cooling seasonal performance factor; COP; Ground thermal degradation; Heat rejection ratio; Hybrid ground source heat pump

Indexed keywords

COOLING;

CONFIGURATION; COP; GROUND-SOURCE HEAT PUMP; HEAT REJECTION; SEASONAL PERFORMANCE;

GEOTHERMAL HEAT PUMPS;

COMPARATIVE STUDY; COOLING; FLOW VELOCITY; FLUID FLOW; GEOTHERMAL SYSTEM; HEAT FLUX; HEAT SOURCE; PERFORMANCE ASSESSMENT; PUMP; RENEWABLE RESOURCE; SEASONALITY; TEMPERATURE PROFILE; THERMAL DECOMPOSITION; HEAT TRANSFER;

SOUTH KOREA; TAEGU [SOUTH KOREA]; TAEGU [TAEGU (ADS)];

EID: 84870765789     PISSN: 03062619     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apenergy.2012.09.035     Document Type: Article

References (37)

1. Nam Y., Ooka R., Shiba Y. Development of dual-source hybrid heat pump system using ground water and air. Energy Build 2010, 42:909-916.
2. Yang H., Cui P., Fang Z. Vertical-borehole ground-coupled heat pumps: a review of models and systems. Appl Energy 2010, 87:16-27.
3. Esen H., Inalli M., Esen M. Technoeconomic appraisal of a ground source heat pump system for a heating season in eastern Turkey. Energy Convers Manage 2006, 47:1281-1297.
4. Esen H., Inalli M., Esen M. A techno-economic comparison of ground-coupled and air-coupled heat pump system for space cooling. Build Environ 2007, 42:1955-1965.
5. Self S.J., Reddy B.V., Rosen M.A. Geothermal heat pump systems: status review and comparison with other heating options. Appl Energy 2013, 101:341-348.
6. Esen H., Inalli M., Esen M., Pihtili K. Energy and exergy analysis of a ground-coupled heat pump system with two horizontal ground heat exchangers. Build Environ 2007, 42:3606-3615.
7. Esen H., Inalli M., Esen M. Numerical and experimental analysis of a horizontal ground-coupled heat pump system. Build Environ 2007, 42:1126-1134.
8. Yang W., Shi M., Liu G., Chen Z. A two-region simulation model of vertical U-tube ground heat exchanger and its experimental verification. Appl Energy 2009, 86:2005-2012.
9. Michopoulos A., Kyriakis N. Predicting the fluid temperature at the exit of the vertical ground heat exchangers. Appl Energy 2009, 86:2065-2070.
10. Bi Y., Wang X., Liu Y., Zhang H., Chen L. Comprehensive exergy analysis of a ground-source heat pump system for both building heating and cooling modes. Appl Energy 2009, 86:2560-2565.
11. Balbay A., Esen M. Experimental investigation of using ground source heat pump system for snow melting on pavements and bridge decks. Scientific Research and Essays 2010, 5:3955-3966.
12. Eslami-nejad P., Bernier M. Freezing of geothermal borehole surroundings: a numerical and experimental assessment with applications. Appl Energy 2012, 98:333-345.
13. Florides G.A., Christodoulides P., Pouloupatis P. An analysis of heat flow through a borehole heat exchanger validated model. Appl Energy 2012, 92:523-533.
14. Yavuzturk C., Spitler J.D. Comparative study to investigate operating and control strategies for hybrid ground source heat pump systems using a short time-step simulation model. ASHRAE Trans 2000, 106(2):192-209.
15. Park H., Lee J.S., Kim W., Kim Y. Performance optimization of a hybrid ground source heat pump with the parallel configuration of ground heat exchanger and a supplemental heat rejecter. Int J Refrig 2012, 35:1537-1546.
16. Sagia Z., Rakopoulos C., Kakaras E. Cooling dominated hybrid ground source heat pump system application. Appl Energy 2012, 94:41-47.
17. Man Y., Yang H., Spitler J.D., Fang Z. Feasibility study on novel hybrid ground coupled heat pump system with nocturnal cooling radiator for cooling load dominated buildings. Appl Energy 2011, 88:4160-4171.
18. Chen X., Yang H. Performance analysis of a proposed solar assisted ground coupled heat pump system. Appl Energy 2012, 97:888-896.
19. Michopoulos A., Papakostas K.T., Kyriakis N. Potential of autonomous ground-coupled heat pump system installations in Greece. Appl Energy 2011, 88:2122-2129.
20. Zhai X.Q., Qu M., Yu X., Yang Y., Wang R.Z. A review for the applications and integrated approaches of ground-coupled heat pump systems. Renew Sust Energy Rev 2011, 15:3133-3140.
21. Ramamoorthy M., Jin H., Chiasson A.D., Spitler J.D. Optimal sizing of hybrid ground-source heat pump systems that use a cooling pond as supplemental heat rejecter - a systematic simulation approach. ASHRAE Trans 2001, 107(1):26-38.
22. Chiasson A.D., Yavuzturk C. Assessment of the performance of hybrid geothermal heat pump systems with solar thermal collectors. ASHRAE Trans 2003, 109(2):487-499.
23. Xu X. Simulation and optimal control of hybrid ground source heat pump systems. Doctoral Thesis, Oklahoma State University: Stillwater, Oklahoma; 2007.
24. Hackel S., Nellis G.N., Klein S.K. Optimization of cooling-dominated hybrid ground-coupled heat pump systems. ASHRAE Trans 2009, 115(1):565-580.
25. Man Y., Yang H., Wang J. Study on hybrid ground-coupled heat pump system for air-conditioning in hot-weather areas like Hong Kong. Appl Energy 2010, 87:2826-2833.
26. Chiasson A.D., Yavuzturk C. A design tool for hybrid geothermal heat pump systems in cooling-dominated buildings. ASHRAE Trans 2009, 115(2):74-87.
27. Kavanaugh S.P. A design method for hybrid ground source heat pumps. ASHRAE Trans 1998, 104(2):691-698.
28. Singh JB, Foster G. Advantages of using the hybrid geothermal option. In: The second international geothermal conference, Stockholm, Sweden; 1998.
29. ISO 13256-1. Water-source heat pump testing and rating for performance. Part 1: Water-to-air and brine-to-air heat pumps. International Standards Organization; 1998.
30. ISO 13256-2. Water-source heat pump testing and rating for performance. Part 2: Water-to-water and brine-to-water heat pumps. International Standards Organization; 1998.
31. ANSI/ASHRAE 116-2010. Method of testing for seasonal efficiency of unitary air conditioners and heat pumps. Atlanta: American Society of Heating Refrigerating and Air-conditioning Engineers; 2010.
32. JIS C 9612. Room air conditioners. Japanese Standards Association; 1994.
33. KS C 9306. Air conditioners. Korean Agency for Technology and Standards; 2010.
34. ASHRAE. ASHRAE handbook-HVAC systems and equipment. Atlanta: American Society of Heating Refrigerating and Air-Conditioning Engineers; 2008 [Chapter 39].
35. ANSI/ASME PTC 19.1. Measurement uncertainty. NY: American Society of Mechanical Engineers; 1985.
36. Park Y.C., Moon J.M., Hong J.T. An overview on standards for seasonal performance evaluation of multi-type air conditioners. Korean Journal of Air-conditioning and Refrigeration 2004, 16(1):91-100.
37. Han J., Han K., Han H., Han C. Geothermal heat pump system for space heating and cooling 2004, Seoul, Hanrimwon.