[Abdel-Ghany, A.M., Ishigami, Y., Goto, E., Kozai, T. (2006). A Method for measuring Greenhouse Cover Temperature using a Thermocouple. Biosystems Engineering, Vol. 95(1), 99-109.10.1016/j.biosystemseng.2006.05.014]Search in Google Scholar
[Attar, I., Farhat, A. (2015). Efficiency evaluation of a solar water heating system applied to the greenhouse climate. Solar Energy, Vol 119, 212-224.10.1016/j.solener.2015.06.040]Search in Google Scholar
[Aye, L., Fuller, R.J., Canal, A. (2010) Evaluation of a heat pump system for greenhouse heating. International Journal of Thermal Sciences, VOL 49(1), 202-208.10.1016/j.ijthermalsci.2009.07.002]Search in Google Scholar
[Bibbiani, C., Fantozzi, F., Gargari, C., Campiotti, C.A., Schettini, E., Vox, G. (2016). Wood Biomass as Sustainable Energy for Greenhouses Heating in Italy. Agriculture and Agricultural Science Procedia, Vol. 8, 637-645.10.1016/j.aaspro.2016.02.086]Search in Google Scholar
[Bot, G.P.A., van de Braak, N., Challa, H., Hemming, S., Rieswijk, T.H., van Straten, G., Verlodt, I. (2005). The solar greenhouse: state of the art in energy saving and sustainable energy supply. Acta Horticulturae, 691, 501-508.10.17660/ActaHortic.2005.691.59]Search in Google Scholar
[Campiotti, C.A., Morosinotto, G., Puglisi, G., Schettini, C., Vox, G. (2016 ). Performance evaluation of a solar cooling plant applied for greenhouse thermal control. Agriculture and Agricultural Science Procedia, Vol. 8, 664-66910.1016/j.aaspro.2016.02.076]Search in Google Scholar
[Campen, J. B., Bot, G. P. A. (2002). Dehumidification in Greenhouses by Condensation on Finned Pipes. Biosystems Engineering, 82(2), 177-185.10.1006/bioe.2002.0058]Search in Google Scholar
[Campen, J. B., Bot, G. P. A., de Zwart, H.F. (2003). Dehumidification of Greenhouses at Northern Latitudes. Biosystems Engineering, 86(4), 487-493.10.1016/j.biosystemseng.2003.08.008]Search in Google Scholar
[Campen, J.B., Kempkes, F.L.K., Bot, G.P.A. (2009). Mechanically controlled moisture removal from greenhouses. Biosystems Engineering, 102, 424-432.10.1016/j.biosystemseng.2009.01.001]Search in Google Scholar
[Cavins, T.J., Dole, J.M., Stamback, V. (2000). Unheated and Minimally Heated Winter Greenhouse Production of Specialty Cut Flowers. Hort Technology, 10(4), 793-799.10.21273/HORTTECH.10.4.793]Search in Google Scholar
[Chau, J., Sowlati, T., Sokhansanj, S., Preto, F., Melin, S., Bi, X. (2009). Techno-economic analysis of wood biomass boilers for the greenhouse industry. Applied Energy, Vol. 86(3), 364-371.10.1016/j.apenergy.2008.05.010]Search in Google Scholar
[Critten, D.L., Bailey, B.J (2002). A review of greenhouse engineering developments during the 1990s. Agricultural and Forest Meteorology, Vol. 112(1), 1-22.10.1016/S0168-1923(02)00057-6]Search in Google Scholar
[Cohen, J.E. (2002). World population in 2050: assessing the projections.]Search in Google Scholar
[Czynczyło-Mysza, I., Dubert, F., Marcińska, I., Kacińska, I. (2007). Influence of light emitting diodes (LED) on Vicia faba callus growth and differentiation. Zeszyty Problemowe Postępów Nauk Rolniczych, 523, 69-82.]Search in Google Scholar
[Dehbi, A., Bouaza, A., Hamou, A., Youssef, B., Saiter, J.M. (2010). Artificial ageing of tri-layer polyethylene film used as greenhouse cover under the effect of the temperature and the UV-A simultaneously. Materials & Design, Vol. 31(2), 864-869.10.1016/j.matdes.2009.07.047]Search in Google Scholar
[Fabrizio, E. (2012). Energy reduction measures in agricultural greenhouses heating: Envelope, systems and solar energy collection. Energy and Buildings, Vol. 53, 57-63.10.1016/j.enbuild.2012.07.003]Search in Google Scholar
[Ghosal, M.K., Tiwari, G.N., Srivastava, N.S.L. (2004). Thermal modeling of a greenhouse with an integrated earth to air heat exchanger: an experimental validation. Energy and Buildings, 36, 219-227.10.1016/j.enbuild.2003.10.006]Search in Google Scholar
[Grabarczyk, S. (2010). Badania zmienności zużycia ciepła w szklarniach z osłonami energooszczędnymi. Czasopismo Techniczne, 4(107), 67-74.]Search in Google Scholar
[Han, J., Guo, H., Brad, R., Gao, Z., Waterer, D. (2015). Dehumidification requirement for a greenhouse located in a cold region. Applied Engineering in Agriculture Vol. 31(2), 291-300.]Search in Google Scholar
[Hare, J.G., Norton, B., Probert, S.D. (1984). Design of greenhouses: Thermal aspects Applied Energy, Vol. 18(1), 49-82.]Search in Google Scholar
[Heo J., Lee C., Chakrabarty D., Peak K., (2002). Growth responses of mariagold and salvia bedding plants as affected by monochromic or mixture radiation provided by a Light-Emitting-Diode (LED). Plant Growth Regulation, 38, 225-230.10.1023/A:1021523832488]Search in Google Scholar
[Hepbasli, A. (2011). A comparative investigation of various greenhouse heating options using exergy analysis method. Applied Energy, Vol. 88(12), 4411-4423.10.1016/j.apenergy.2011.05.022]Search in Google Scholar
[Jabłońska, L., Olewnicki (2014). Zmiany w powierzchni upraw ogrodniczych pod osłonami w Polsce w pierwszej dekadzie XXI w. Zeszyty Naukowe Szkoły Głównej Gospodarstwa Wiejskiego. Problemy Rolnictwa Światowego, Vol. 11(26), 89-97.]Search in Google Scholar
[Joudi, K.A., Farhan, A.A. (2014). Greenhouse heating by solar air heaters on the roof. Renewable Energy, 72, 406-414.10.1016/j.renene.2014.07.025]Search in Google Scholar
[Kempes, F.L.K., van de Braak, N.J. (2000). Heating system position and vertical microclimate distribution in chrysanthemum greenhouse. Agricultural and Forest Meteorology, Vol. 104(2), 133-142.10.1016/S0168-1923(00)00154-4]Search in Google Scholar
[Kim, S.J., Hahn, E.J., Heo, J.W., Paek, K.Y. (2004). Effects of LEDs on net photosynthetic rate, growth and leaf stomata of chrysanthemum plantlets in vitro. Scientia Horticulturae, 101, 143-151.10.1016/j.scienta.2003.10.003]Search in Google Scholar
[Klamkowski, K., Treder, W., Wójcik, K., Puternicki, A., Lisak, E. (2014). Influence of supplementary lighting on growth and photosynthetic activity of tomato transplants. Infrastructure and Ecology of Rural Areas, IV/3, 1377-1385.]Search in Google Scholar
[Kurpaska, S. (2003). Modyfikacja wyposażenia technicznego tunelu foliowego w aspekcie jego zapotrzebowania na ciepło. Problemy Inżynierii Rolniczej, 1, 39-46,]Search in Google Scholar
[Kurpaska, S. (2007). Szklarnie i tunele foliowe: inżynieria i procesy. Poznań, Wydawnictwo PWRiL, ISBN:978-83-09-01024-1.]Search in Google Scholar
[Kurpaska, S. (2008). Wymiary geometryczne oraz rodzaj pokrycia a zapotrzebowanie ciepła w szklarni. Inżynieria Rolnicza, 6(104), 89-96.]Search in Google Scholar
[Kurpaska, S., Latała H., Łapczyńska-Kordon B., Mudryk K. (2012). Efficiency of the heat pump cooperating with various heat sources in monovalent and bivalent systems. TEKA. Commission of Motorization and Energetics in Agricultures, Vol 12(1), 109-113.]Search in Google Scholar
[Kurpaska, S., Latała H. (2012a). Energy efficiency of ground heat exchangers cooperating with compressor heat pump. TEKA. Commission of Motorization and Energetics in Agricultures, Vol 12(1), 103-107.]Search in Google Scholar
[Kurpaska, S., Latała H. (2012b). Analysis of the influence of variable insulating power of a storing tank on energy effects in the conversion system of solar radiation. TEKA. Commission of Motorization and Energetics in Agricultures, Vol 12(2), 293-301.]Search in Google Scholar
[Kurpaska, Sł., Latała, H., Sporysz, M., Sikora, J., Mudryk, K., Konopacki, P., Hołownicki, R. (2015a). Some Aspects of the Analysis during Heating Plastic Tunnel by the Use of Heat from Stone Accumulator. Journal of Environmental Science and Engineering, 4, 154-160.10.17265/2162-5298/2015.03.007]Search in Google Scholar
[Kurpaska, S., Latała, H., Baran, D., Konopacki, P., Hołownicki, R. (2015b). Heat storing effectiveness with the use of a recuperator in the liquid type battery. Agricultural Engineering, 3(155), 47-57.]Search in Google Scholar
[Laazar, M., Bouadila, S., Kooli, S., Farhat, A. (2015). Comparative study of conventional and solar heating systems under tunnel Tunisian greenhouses: Thermal performance and economic analysis. Solar Energy, Vol. 120, 620-635.10.1016/j.solener.2015.08.014]Search in Google Scholar
[Liao, Z., Dexter, A. L. (2004): The potential for energy saving in heating systems through improving boiler controls. Energy and Buildings, 36, 261-271.10.1016/j.enbuild.2003.12.006]Search in Google Scholar
[Ooster, van’t A., Henten, van E.J., Janssen, E.G.O.N., Bot, G.P.A., Dekker, E. (2008) Development of Concepts for a Zero-Fossil-Energy Greenhouse. Acta Horticulturae, 801, 725-732.10.17660/ActaHortic.2008.801.84]Search in Google Scholar
[Ozenger, O., Hepbasli, A. (2005). Experimental performance analysis of a solar assisted groundsource heat pump greenhouse heating system. Energy and Buildings, Vol. 37(1), 101-110.10.1016/j.enbuild.2004.06.003]Search in Google Scholar
[Ozenger, L., Ozenger, O. (2010). Energetic performance test of an underground air tunnel system for greenhouse heating. Energy, Vol. 35(10), 4079-4085.10.1016/j.energy.2010.06.020]Search in Google Scholar
[Pawlak, J. (2012). Efektywność nakładów energii w rolnictwie polskim. Roczniki Nauk Rolniczych, Seria G, Tom 99, Z. 1, 121-128.]Search in Google Scholar
[Pinho, P., Lukalla, R., Sarkka, L., Tetri, E., Tahvonen, R., Halonen, L. (2007). Evaluation of lettuce growth under multi-spectral-component supplemental solid state lighting in greenhouse environment. International Review of Electrical Engineering, Vol. 2(6), 854-860.]Search in Google Scholar
[Rooder, M., Whittaker, C., Thornley, P. (2015). How certain are greenhouse gas reductions from bioenergy? Life cycle assessment and uncertainty analysis of wood pellet-to-electricity supply chains from forest residues. Biomass and Bioenergy, Vol. 79, 50-63.10.1016/j.biombioe.2015.03.030]Search in Google Scholar
[Russo, G., Antifanis, A.S., Verdiani, G., Mugnozza, G.S. (2014). Environmental analysis of geothermal heat pump and LPG greenhouse heating systems. Biosystems Engineering, Vol. 127, 11-23.10.1016/j.biosystemseng.2014.08.002]Search in Google Scholar
[Skorek, J., Kalina, J. (2005). Gazowe układy kogeneracyjne, Warszawa, Wyd. Naukowo-Techniczne, ISBN:83-204-3103-4.]Search in Google Scholar
[Sonneveld, P.J., Swinkels, G.L.A.M., Campen, J., Tuijl, van B.A.J., Janssen H.J.J., Bot, G.P.A. (2010). Performance results of a solar greenhouse combining electrical and thermal energy production. Biosystems Engineering, 106(1), 48-57.10.1016/j.biosystemseng.2010.02.003]Search in Google Scholar
[Tantau, H-J., Lange, D. (2003). Greenhouse climate control: an approach for integrated pest management. Computers and Electronics in Agriculture, Vol. 40(1-3), 141-152.10.1016/S0168-1699(03)00017-6]Search in Google Scholar
[Teitel, M., Shklyar, A., Segal, I., Barak, M. (1996a). A Comparison between Pipe and Air Heating Methods for Greenhouses. Journal of Agricultural Engineering Research, Vol.72(3), 259-279.10.1006/jaer.1998.0370]Search in Google Scholar
[Teitel, M., Shklyar, A., Segal, I., Barak, M. (1996b). Effects of Nonsteady Hot-water Greenhouse Heating on Heat Transfer and Microclimate. Journal of Agricultural Engineering Research, Vol. 65(4), 297-304.10.1006/jaer.1996.0103]Search in Google Scholar
[Teitel, M., Barak, M., Antler, A. (2009). Effect of cyclic heating and a thermal screen on the nocturnal heat loss and microclimate of a greenhouse. Biosystems Engineering, 102, 162-170.10.1016/j.biosystemseng.2008.11.013]Search in Google Scholar
[Thornley, P., Gilbert, P., Shackley, S., Hammond, J. (2015). Maximizing the greenhouse gas reductions from biomass: The role of life cycle assessment. Biomass and Bioenergy, Vol. 81, 35-43.10.1016/j.biombioe.2015.05.002]Search in Google Scholar
[Trouwborst, G., Oosterkamp, J., Hogewoning, S.W., Harbinson, J., van Ieperen, W. (2010). The responses of light interception, photosynthesis and fruit yield of cucumber to LED lighting within the canopy. Physiologia Plantarum, 138(3), 289-300.10.1111/j.1399-3054.2009.01333.x]Search in Google Scholar
[Hao, X., Borhan, A.S., Zheng, J. (2006). Influence of Heating Pipe Placement on Microclimate of Greenhouses with Raised-Trough Tomato. Paper no. 064130, ASAE Annual Meeting.]Search in Google Scholar
[Zhang, L., Xu P., Mao, J., Tang, X., Li, Z., Shi, J. (2015). A low cost seasonal solar soil heat storage system for greenhouse heating: Design and pilot study. Applied Energy, Vol. 156, 213-222.10.1016/j.apenergy.2015.07.036]Search in Google Scholar
[Zhang, Y., Gauthier, L., Halleux, de D., Dansereau, B., Gosselin, A. (1996). Effect of covering materials on energy consumption and greenhouse microclimate. Agricultural and Forest Meteorology, 82(1-4), 227-244.10.1016/0168-1923(96)02332-5]Search in Google Scholar
[Zwart, de H.F. (1996). Analyzing energy saving options in greenhouse cultivation using simulation model. Ph.D. dissertation, Agricultural University of Wageningen.]Search in Google Scholar
[Journal of Laws of 2005, item 1875 Resolution of the Council of /ministers of 12 October 2015 on the charges for the use of environment.]Search in Google Scholar
[2009/28/EC Directive of the European Parliament and the Council of 23 April 2009 on promotion of renewable energy sources amending and repealing directives 2001/77/EC and 2003/30/EC.]Search in Google Scholar
[Prognoza (on-line 2016). GUS. Prognoza ludności polski na lata 2014 2050. Obtained from: www.stat.gov.pl]Search in Google Scholar
[Gospodarka(on-line 2016) GUS. Gospodarka paliwowa i energetyczna w latach 2013 i 2014r. Obtained from: www.stat.gov.pl]Search in Google Scholar
[Kobize (on-line 2016) Krajowa baza o emisji gazów cieplarnianych i innych substancji. Obtained from: http://pl.wikipedia.org/wiki/Tarcie]Search in Google Scholar
[Ludvigsvensson (on-line-2016) Dane dotyczące ekranów ciepła marki Svensson. Obtained from: www.ludvigsvensson.com]Search in Google Scholar
[Ogrodinfo (on-line-2016) Portal ogrodniczy. Obtained from: www.ogrodinfo.pl]Search in Google Scholar
[Sppiopo (on-line-2016), Stowarzyszenie producentów pomidorów i ogórków pod osłonami. Obtained from: www.sppiopo.pl]Search in Google Scholar