Development, validation and use of a dynamic model for simulate the climate conditions in a large scale greenhouse equipped with insect-proof nets
作者: H. Fatnassi , T. Boulard , L. Bouirden
DOI: 10.1016/J.COMPAG.2013.07.008
关键词: Flux (metallurgy) 、 Meteorology 、 Water vapor 、 Greenhouse 、 Air temperature 、 Scale (map) 、 Latent heat 、 Buoyancy 、 Environmental science 、 Plant growth
摘要: Easily simulating inside climate conditions in the large insect screened Canary type greenhouses used intensively along Moroccan coast is particularly important enhancing this production system. We have therefore developed a global greenhouse model based on combined sensible and latent heat balances which ventilation flux has been simulated combining buoyancy forces wind effect. In region of Agadir South Morocco, big commercial greenhouse, farming tomatoes equipped with insect-proof nets provided measurements validated model. The precise estimation fluxes exchanged among different components balanced energy mass system so that air temperature water vapour content were deduced accurately. A study effects various types was carried out later to analyse impact varying net mesh size greenhouse. It shown an unchanged open vent surface, use anti-Thrips incompatible most time satisfactory for plant growth coastal areas southern Morocco.
elsevier.com
sci-hub.se 参考文章(23)
H. Fatnassi, T. Boulard, H. Demrati, L. Bouirden, G. Sappe, SE—Structures and Environment Biosystems Engineering. ,vol. 82, pp. 97- 105 ,(2002) , 10.1006/BIOE.2001.0056
Gilbert Issanchou, Modélisation énergétique des serres : contribution à la mise au point d'un logiciel de thermique appliqué à l'ingéniérie des serres Perpignan. ,(1991)
Olivier Jolliet, Modélisation du comportement thermique d"une serre horticole EPFL. ,(1988) , 10.5075/EPFL-THESIS-713
Pierre-Emmanuel Bournet, Thierry Boulard, Review: Effect of ventilator configuration on the distributed climate of greenhouses: A review of experimental and CFD studies Computers and Electronics in Agriculture. ,vol. 74, pp. 195- 217 ,(2010) , 10.1016/J.COMPAG.2010.08.007
T. Takakura, K. A. Jordan and L. L. Boyd, Dynamic Simulation of Plant Growth and Environment in the Greenhouse Transactions of the ASABE. ,vol. 14, pp. 964- 0971 ,(1971) , 10.13031/2013.38432
C KITTAS, Quantification du taux d'a�ration d'une serre � ouvrant continu en toiture Agricultural and Forest Meteorology. ,vol. 77, pp. 95- 111 ,(1995) , 10.1016/0168-1923(95)02232-M
A.M. Abdel-Ghany, Y. Ishigami, E. Goto, T. Kozai, A Method for measuring Greenhouse Cover Temperature using a Thermocouple Biosystems Engineering. ,vol. 95, pp. 99- 109 ,(2006) , 10.1016/J.BIOSYSTEMSENG.2006.05.014
Thierry Boulard, Alain Baille, M Mermier, F Villette, None, Mesures et modélisation de la résistance stomatique foliaire et de la transpiration d'un couvert de tomates de serre Agronomie. ,vol. 11, pp. 259- 274 ,(1991) , 10.1051/AGRO:19910403
T. Boulard, B. Draoui, Natural Ventilation of a Greenhouse with Continuous Roof Vents: Measurements and Data Analysis Journal of Agricultural Engineering Research. ,vol. 61, pp. 27- 35 ,(1995) , 10.1006/JAER.1995.1027
J.C. Bakker, Leaf conductance of four glasshouse vegetable crops as affected by air humidity Agricultural and Forest Meteorology. ,vol. 55, pp. 23- 36 ,(1991) , 10.1016/0168-1923(91)90020-Q