ANALYSIS OF ENERGY PERFORMANCE OF HEAT PUMP DRYING


  • Yu.F. Snezhkin
  • D.M. Chalaev
  • N.O. Dabizha
Keywords: heat pump cycles, heat pump, drying, energy efficiency.

Abstract

The processes of moisture extraction from the heat-carrying agent in heat pump drying are considered. The influence of thermomoist parameters of the heat-carrying agent on energy performance of the heat pump has been studied.

References

1. Snezhkin Yu.F., Chalaev D.M., Shavrin V.S., Shapar R.О., Khavin О.О., Dabizha N.O. Vykorystannia teplovykh nasosiv v protsesakh sushinnia [Heat pump application in drying], Promyshlennaia teplotekhnika [Industrial heat engineering], 2006. V. 28. № 2. P. 106-110. (Ukr.)

2. Kudra T., Mujumdar Arun S. Advanced Drying Technologies, New York, Basel: Marcel Dekker, Inc., 2002. 472 p.

3. Chua K.J., Chou S.K., Mujumdar A.S., Ho J.C., Hawlader M.N.A. Heat pump drying: recent developments and future trends, Drying Technology, 2002. V. 20. № 8. P. 1559-1577.

4. Minea V. Drying heat pumps-Part I: System integration, International Journal of Refrigeration, 2013. № 36. P. 643-658.

5. Prasertsan S., Saen-saby P. Heat pump drying of agricultural materials, Drying Technology, 1998. V. 16. № 1&2. P. 235-250.

6. Chua K.J., Chou S.K. A modular approach to study the performance of a two-stage heat pump system for drying, Applied Thermal Engineering. 2005. № 25. P. 1363-1379.

7. Alves-Filho O., Strommen I. The Application of Heat Pump in Drying of Biomaterials, Drying Technology, 1996. V. 14. № 9. P. 2061-2090.

8. Artnaseaw A., Theerakulpisut S., Benjapiyaporn C. Development of a vacuum heat pump dryer for drying chilli, Biosystems Engineering, 2010. V. 105. № 1. P. 130-138.

9. Ogura H., Ishida H., Kage H., Mujumdar A.S. Enhancement of Energy Efficiency of a Chemical Heat Pump-Assisted Convective Dryer, Drying Technology, 2003. V. 21. P. 279-292.

10. Chalaev D.M., Dabizha N.O., Shavrin V.S., Khavin О.О. Optimizatsiia rezhimov raboti teplonasosnoi kondensatsionnoii sushilnoi ustanovki [Optimization of operating modes of heat pump condensation drying unit], Trudi 1-i Mezhdunar. nauchno-praktich. konf. “Sovremennie energosberegaiushchie teplovie tekhnologii (sushka i termovlazhnostnaia obrabotka materialov)” [Proceeding of 1st Int. Sci.-pract. Conf. “Energy-saving Tecnologies for Drying and Hygrothermal Processing”]. Moskva [Moscow], 2002. V. 4. pp. 234-236. (Rus)

11. Snezhkin Yu.F., Chalaev D.M., Dabizha N.O. Obezvozhivanie kolloidnikh kapiliarno-poristikh materialov v usloviiakh visokovlazhnostnoi sredi [Dehydration of colloidal capillary-porous materials under conditions of a high-moisture environment], Trudi V Minskogo mezhdunar. foruma po teplo- i massoobmenu [Proceeding of V Minsk In-ternational Heat and Mass Transfer Forum]. Minsk [Minsk], 2004. (Rus.)

12. Snezhkin Yu.F., Chalaev D.M., Shavrin V.S., Dabizha N.O., Gatilov К.O. Effektivnost primeneniia teplovikh nasosov v protsessakh konvektivnoi sushki [Efficiency of using heat pumps in convective drying processes], Naukovi pratsi ОNАKHТ [Scientific Proceedings of ONAFT], 2007. P. 30. V.1. P. 185-189. (Rus.)

13. Dabizha N.O. Energoeffektivnaia tekhnologiia sushki termolabilnikh materialov s ispolzovaniem teplovikh nasosov [Energy-efficient drying technology of thermolabile materials with using heat pumps], Naukovi pratsi ОNАKHТ [Scientific Proceedings of ONAFT], 2011. S. 39. V. 2. P. 341-345. (Rus.)

Abstract views: 75
PDF Downloads: 114
Published
2017-06-20
How to Cite
Snezhkin, Y., Chalaev, D., & Dabizha, N. (2017). ANALYSIS OF ENERGY PERFORMANCE OF HEAT PUMP DRYING. Thermophysics and Thermal Power Engineering, 39(3), 47-52. https://doi.org/https://doi.org/10.31472/ihe.3.2017.07
Section
Theory and Practice of Drying