THE THERMO-PHYSICAL SIMULATION OF AN AIR-EARTH HEAT EXCHANGER FOR HEAT SUPPLYING OF THE DOUBLE SKIN FA?ADE WALL SYSTEM OF ENERGY-EFFICIENT BUILDING


  • B.I. Basok
  • М.P. Novitska
Keywords: air-earth heat exchanger, numerical simulation, energy-efficient building

Abstract

The possibility of energy extraction from soil for heat supplying of energy-efficient building is considered at this article. The numerical simulation of an air-earth heat exchanger which lies at relatively shallow depths is represented. In conclusion it was obtained that air-earth heat exchangers might increase or decrease air temperature to minimize energy consumption of energy-efficient buildings.

References

1. Basok B.I., Novitska M. P., Kuzhel L.M., Bozhko I.K., Nedbailo O.M., Tkachenko M.V., Goncharuk S.M. Sposib zabezpechennia povitriano-teplovoi zavisy teplotoiu gruntu [The method of thermal-air vein provided by soil heat], Patent Ukrainy na koristnu model [Patent on Ukraine on useful model], № 88791 MPK F24F 1/00, F24F 5/00 vid 25.03.2014 Bull. № 6. (Ukr.)

2. A. Sehli, A.Hasni, M.Tamali. The potential of earth- air heat exchangers for low energy cooling of buildings in South Algeria, Energy Procedia, 2012. No 18. P.496 – 506.

3. A. Tzaferis, D. Liparakis, M. Santamouris A. Argiriou. Analysis of the accuracy and sensitivity of eight models to predict the performance of earth-to-air heat exchangers, Energy and Buildings, 1992. No 18. P. 35-43.

4. M. Krarti, J. F. Kreider. Аnalytical model for heat transfer in an underground air tunnel, Energy Conversion and Management, 1996. Vol. 37. No. 10. P. 1561-1574.

5. Badescu V. Simple and accurate model for the ground heat exchanger of a passive house. Renew Energy, 2007. No. 32. P. 845–855.

6. S. Amara, B. Nordell and B. Benyoucef. Using Fouggara for Heating and Cooling Buildings in Sahara, Energy Procedia, 2011. No 6. P. 55–64.

7. I. Tsimoura, K. Ikonomou, A. Mamalougkas, G. Tsilingiridis. Study of ground temperature variations at depths up to 3 meters at the Meteorological Station of Aristotle University of Thessaloniki, In: Proceeding of 5th International Conference on Renewable Energy Sources – New Challenges, 5-6 May 2016. P. 294–303.

8. Nakorchevskii A.I., Beliaeva T.H. Rehressionnyi analiz hlubin hodovyh fluktuacii temperature v verhnikh sloiakh grunta [Regressive analysis of depths of annual fluctuations temperatures in overhead ground layers], Promyshlennaya teplotekhnika [Industrial Heat Engineering], 2005. V. 27. № 6. P.86–90. (Rus.)

9. Benkert S, Heidt FD, Scholer D. Calculation tool for earth heat exchangers GAEA. In: Proceeding of building simulation '97, Fifth International IBPSA Conference, Prague. 1997. Р. 9–16.

Abstract views: 346
PDF Downloads: 236
Published
2017-02-20
How to Cite
Basok, B., & NovitskaМ. (2017). THE THERMO-PHYSICAL SIMULATION OF AN AIR-EARTH HEAT EXCHANGER FOR HEAT SUPPLYING OF THE DOUBLE SKIN FA?ADE WALL SYSTEM OF ENERGY-EFFICIENT BUILDING. Thermophysics and Thermal Power Engineering, 39(1), 49-52. https://doi.org/https://doi.org/10.31472/ihe.1.2017.07

Most read articles by the same author(s)