Methodical Aspects of Determination of Parameters Which Characterize Thermal Balance of a Plastic Tunnel
References
- Abdel-Ghany, A.M. (2011). Solar energy conversions in the greenhouses. Sustainable Cities and Society, Vol. 1, 219-226.
- Al-Helal, I.M., Abdel-Ghany, A.M. (2011). Energy partition and conversion of solar and thermal radiation into sensible and latent heat in a greenhouse under arid conditions. Energy and Buildings, Vol. 43, 1740-1747.
- Cabrera, F.J., Baille, A., Lopez, J.C., Gonzalez-Real, M.M., Perez-Parra, J. (2009). Effects of cover diffusive properties on the components of greenhouse solar radiation. Biosystems Engineering, Vol. 103, 344-356.
- Canakci, M., Emekli, N.Y., Bilgin, S., Caglayan, N. (2013). Heating requirement and its costs in greenhouse structures: A case study for Mediterranean region of Turkey. Renewable and Sustainable Energy Reviews, Vol. 24, 483-490.
- El-Maghlany, W.M., Teamah, M.A., Tanaka, H., (2015). Optimum design and orientation of the greenhouses for maximum capture of solar energy in North Tropical Region. Energy Conversion and Management, Vol. 105, 1096-1104.
- Hassanien, R., H. E., Li, M., Lin, W.D. (2016). Advanced applications of solar energy in agricultural greenhouses. Renewable and Sustainable Energy Reviews, Vol. 54, 989-1001.
- Kurpaska, S. (2014). Energy effects during using the glass with different properties in a heated greenhouse. Technical Sciences, Vol. 17(4), 351-360.
- Kurpaska, S. (2007). Szklarnie i tunele foliowe. Inżynieria i procesy. PWRiL, Poznań. ISBN 978-83-09-01024-1.
- Lamnatou, Chr., Chemisana, D., (2013). Solar radiation manipulations and their role in greenhouse claddings: Fresnel lenses, NIR- and UV-blocking materials. Renewable and Sustainable Energy Reviews, Vol. 18, 271-287.
- Martinovic, G., Simon, J., (2014). Greenhouse microclimatic environment controlled by a mobile measuring station. NJAS – Wageningen. Journal of Life Sciences, Vol. 70-71, 61-71
- Ntinas, G.K., Fragos, V.P., Nikita-Martzopoulou, Ch. (2014). Thermal analysis of a hybrid solar energy saving system inside a greenhouse. Energy Conversion and Management, Vol. 81 428-439.
- Raczek, A., Wachowicz, E. (2014). Heat and mass exchange model in the air inside a greenhouse. Agricultural Engineering. Vol. 149, 185-195.
- Singh, D., Basu, Ch., Meinhardt-Wollweber, M., Roth, B. (2015). LEDs for Energy Efficient Greenhouse Lighting. Renewable and Sustainable Energy Reviews, Vol. 49, 139-147.
- Vadiee, A., Martin, V. (2014). Energy management strategies for commercial greenhouses. Applied Energy, Vol. 114, 880-888.
DOI: https://doi.org/10.1515/agriceng-2016-0046 | Journal eISSN: 2449-5999 | Journal ISSN: 2083-1587
Language: English
Page range: 83 - 93
Submitted on: Mar 1, 2016
Accepted on: Aug 1, 2016
Published on: Oct 17, 2016
Published by: Polish Society of Agricultural Engineering
In partnership with: Paradigm Publishing Services
Publication frequency: 1 times per year
Keywords:
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© 2016 Sławomir Kurpaska, Wojciech Lis, Jan Vogelgesang, published by Polish Society of Agricultural Engineering
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.