Solar Assisted Ground Source Heat Pump Performance in Nearly Zero Energy Building in Baltic Countries
Open Access
|Oct 2013References
- 1. Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010
- 2. LST EN 15450:2007 “Heating systems in buildings - design of heat pump heating systems” Lithuanian department of standardization. 2007
- 3. Sparber W. Vajen K. Herkel S. et. al. Overview on solar thermal plus heat pump systems and review of monitoring results. International Energy Agency SHC program. 2011. P. 1-12.
- 4. Kjellsson, E., Hellstrom, G., Perrers, B. Optimization of systems with the combination of ground-source heat pump and solar collectors in dwellings. Energy 2009, Vol. 35, No. 6, p. 2667-2673.
- 5. Mierlo B.P. Coupled thermal solar collector and heat pump simulation for improved system performance.. Master Thesis. Eindhoven University of technology. 2011 p. 16.
- 6. Xi, C., Lim, L., Hongxing, Y. Long Term of a Solar Assisted Ground Coupled Heat Pump System for Space Heating and Domestic Hot Water. Energy and Buildings 2011, Volume. 43, No. 8, p. 1835-1844.
- 7. Helpin V. Kumert M. Cauret O. Experimental and simulation study of hybrid ground-source heat pump systems with unglazed solar collectors for French office buildings 12th conference of IBPSA proceedings. Sidney. Australia. 2011. p. 2957-2964.
- 8. Bertran E. Glebin J. Sheuren J. et. al. Unglazed solar collectors in heat pump systems: Measurement, Simulation and dimensioning. Eurosun 2008. 2008. p. 1-7.
- 9. Biaou L.A. Bernier. M.A. Achieving total domestic hot water production with renewable energy. Building and Environment 43, 2008, p. 651-660.
- 10. Kapsalaki M., Leal V., Santamouris M. A methodology for economic efficient design of Net Zero Energy Buildings Energy and Buildings.Volume 55. 2012. p. 765-778.
- 11. Rad M.F. Fung A.S., Leong W.H.. Feasibility of combined solar thermal and ground source heat pump systems in cold climate, Canada. Energy and Buildings, Volume 61. 2013. p. 224-232.
- 12. Kjellsson E. Solar collectors combined with ground-source heat pumps in dwellings. PhD thesis 2009. Lund University.152 p.
- 13. STR 2.01.09:2012. “Energy performance of buildings. Energy performance certification” (Pastatų energinis naudingumas. Energinio naudingumo sertifikavimas) Vilnius. Environment Ministry of Lithuanian Republic. 2012 (in Lithuanian)
- 14. Bertran, E., Parisch, P., Tepe, R. Impact of solar heat pump system concepts on seasonal performance - Simulation studies. IEA SHC Task 44 /HPP Annex 38 “Solar and heat pumps system”. International Energy Agency 2011 p.1-8
- 15. Feist W. Pfluger R. Kaufman B. et.al. Passive House Planning Package 2007. Requirements for quality-approved Passive houses. The Passive house institute. Darmstadt. Germany 206 p.
- 16. Salmeron J.M. Alvarez S. Molina J.L. et. al. Tightening the energy consumption of buildings depending on their typology and on Climate Severity Indexes. Energy and Buildings, Volume 58, 2013. p. 372-377.
- 17. Meteotest: Remund J., Kunz S. Meteonorm Data (Worldwide), METEOTEST, Bern, Switzerland. 2011.
- 18. Heating and cooling degree days [online] [viewed January 2013] www.degreedays.net
- 19. Shogenova A. Sliaupa S. Vaher R. et.al. The Baltic Basin: structure, properties of reservoir rocks, and capacity for geological storage of CO2 Estonian Journal of Earth Sciences. 2009. Volume 58, No. 4, p. 259-267
- 20. Jordan, U., Vajen, K. Influence of the DHW Load Profile on the Fractional Energy Savings: a Case Study of a Solar Combi - System with TRNSYS Simulations. Solar Energy 2000, Volume 69, No. 6, p.197-208.
- 21. Januševičius, K; Jaraminienė, E; Misevičiūtė, V. Heating load determination for passive buildings in Lithuanian climate conditions. „Inżynieria Środowiska - młodym okiem” Białystok : Politechnika Białostocka, 2012. p. 185-189.
- 22. Januševičius, K., Jaraminienė, E. Saulės Kolektorių ir Gruntinio Šilumos Siurblio Sistema Mažaenergiam Pastatui. "Pastatų inžinerinės sistemos" 2013.
- 23. Duffie, J. A., Beckman W. A. Solar Engineering of thermal processes. 2006. Willey.
- 24. LST EN 15316 “Heating systems in buildings - Method for calculation of system energy requirements and system efficiencies - Part 4-3: Heat generation systems, thermal solar systems” Lithuanian department of standardization. 2007
- 25. Klein, A., Beckman, A., Mitchell, W. et al. TRNSYS 17 - a transient system simulation program. Madison, Solar Energy Laboratory, University of Wisconsin; USA 2011
- 26. Hellstrom G. Duct ground storage model, TRNSYS documentation, 1996
- 27. LST EN ISO 7730:2006 “Ergonomics of the thermal environment - Analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria”. Lithuanian department of standardization. 2006
Language: English
Page range: 48 - 56
Published on: Oct 12, 2013
Published by: Riga Technical University
In partnership with: Paradigm Publishing Services
Publication frequency: 2 issues per year
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© 2013 Karolis Januševičius, Giedrė Streckienė, published by Riga Technical University
This work is licensed under the Creative Commons License.