T. F. Stocker, Climate Change 2013: The physical science basis, contribution of working group I to the fifth assessment, Report of the Intergovernmental Panel on Climate Change

P. Soni, V. M. Salokhe, and H. J. Tantau, Effect of screen mesh size on vertical temperature distribution in naturally ventilated greenhouses tropical, Biosystems Engineering, vol.92, issue.4, pp.469-482, 2005.

L. A. Duarte, E. R. Schoffel, M. E. Mendez, and E. Schallenberger, Changes in temperature of the air through the screens on the sides planted with tomato greenhouses, Journal of Agricultural and Environmental Engineering, vol.15, issue.2, pp.148-153, 2011.

D. S. Voltan, R. Z. Barbosa, and J. Martins, Spatial variability of relative humidity inside a greenhouse in tropical climate, Journal of Agricultural Sciences, vol.9, issue.2, pp.251-257, 2014.

I. F. Tinôco, Effect of different environment conditioning systems, and metabolizable energy levels in the diet on performance of broiler headquarters in summer and autumn conditions, 1996.

J. R. Camargo, C. Ebinuma, D. Cardoso, and S. A. , Mathematical model for direct evaporative cooling air conditioning system, Thermal Engineering, vol.2, pp.30-34, 2003.

E. Justino, I. A. Nääs, T. M. Carvalho, and D. A. Salgado, Efeito do resfriamento evaporativo e do balanço eletrolítico sobre a lactação de porcas em condições de verão tropical, Arq. Bras. Med. Vet. Zootec, vol.67, issue.2, pp.455-464, 2015.

J. M. Medeiros, B. S. Lopes, J. M. Freire, J. P. Silva, F. C. Viana et al., Analysis of a prototype of adsorptive evaporative air conditioner for hot and humid weather, Scientific Journal Principia-Disclosure and Technological, vol.1, issue.26, pp.27-41, 2015.

I. N. Ahmed, O. Abaas, M. Ahmed, and M. R. Ismail, Performance evaluation of three different types of location evaporative cooling pads in greenhouses in Sudan, Saudi Journal of Biological Sciences, vol.18, issue.1, pp.45-51, 2011.

A. Kouchakzadeh and A. Brati, The evaluation of the bulk charcoal greenhouse evaporative cooling pad, Agricultural Engineering International: CIGR Journal, vol.15, issue.2, pp.188-193, 2013.

J. Chen, Y. Cai, F. Xu, H. Hu, and Q. Oh, Analysis and optimization of the fan-pad evaporative cooling system for greenhouse based on CFD, Advances in Mechanical Engineering, vol.1, issue.8, pp.1-8, 2014.

A. Franco, D. L. Valera, A. Pena, and A. M. Pérez, Aerodynamic analysis and CFD simulation of evaporative cooling pads several cellulose used in Mediterranean greenhouses, Computers and Electronics in Agriculture, vol.76, issue.2, pp.218-230, 2011.

H. Montazeria, B. Blockena, and J. L. Hensena, Evaporative cooling by water spray systems: CFD simulation, experimental validation and sensitivity analysis, Building and Environment, vol.83, issue.1, pp.129-141, 2015.

. Ashrae, Evaporative air cooling, HVAC Systems and Equipment Handdbook, 1992.

T. Yanagi, V. C. Carvalho, S. N. Yanagi, and F. Damasceno, Cooling efficiency of evaporative Modeling in wetted porous plates systems, Proceedings of XXXV Brazilian Congress Agricultural Engineering, pp.1-9, 2006.

L. R. Wilhelm, Numerical calculation of psychrometric properties in SI units, Transactions of the ASAE, vol.19, issue.2, pp.318-321, 1976.

S. M. Moreira, M. A. Chaves, and L. M. Oliveira, Net efficiency of comparison in the determination of the bulk density of agricultural grains, Journal of Storage, vol.9, issue.1, pp.22-24, 1985.

A. G. Araujo, Estimation and classification of soil compaction due to agricultural machine traffic through the nebula modeling, 2004.

. Brasil, Ministério da Agricultura e Reforma Agrária. Departamento Nacional de Meteorologia, Normais Climatológicas, pp.1961-1990, 1992.

C. E. Silva, Comparison of evaporative panels of expanded clay and cellulose for adiabatic cooling systems of air in poultry houses with negative pressure in tunnel model, 2002.

J. F. Rosa, I. F. Tinôco, C. M. Fernandes, and S. Zolnier, Dimensionamento de painéis porosos para condicionamento do ar em ambientes climatizados. Engenharia na agricultura, vol.20, pp.404-411, 2012.

R. A. Peixoto, I. F. Tinôco, R. S. Gates, S. A. Moura, and C. F. Souza, Performance of different types of applied materials to coverings of facilities for animal production -Simulation, Proceedings of ASAE International Meeting, pp.1-9, 2003.

F. Wiersma, T. H. Short, and . Evaporative-cooling, Proceedings of ASAE International Meeting, Ventilation of agricultural structures, 1983.

, User's guide (Realese 8.2) Cary, NC, SAS, 2001.

G. Borges, T. Yanagi-junior, L. G. Carvalho, F. A. Damasceno, and S. N. Yanagi, Climate changes influence on inside thermal environment of broiler houses, Proceedings of International Conference of Agricultural Engineering, pp.1-37, 2008.

I. A. Nääs, C. E. Romanini, D. A. Salgado, K. A. Lima, M. M. Vale et al., Impact of global warming on beef cattle production cost in Brazil, Scientia Agricola, vol.67, issue.1, pp.1-8, 2010.

T. G. Silva, M. S. Moura, I. I. Sá, S. Zolnier, S. H. Turco et al., Cenários de mudanças climáticas e seus impactos na produção leiteira em estados nordestinos, Revista Brasileira de Engenharia Agrícola e Ambiental, vol.14, issue.8, pp.863-870, 2010.

R. C. Gomes, T. Yanagi-junior, R. R. Lima, S. Yanagi, N. M. De et al., Predição do índice de temperatura do globo negro e umidade e do impacto das variações climáticas em galpões avícolas climatizados, Ciência Rural, vol.41, issue.9, pp.1645-1651, 2011.

R. Ghini, E. Hamada, and W. Bettiol, Impacto das mudanças climaticas sobre as doencas de importantes culturas no Brasil [em Línea, Embrapa Meio Ambiente, 2011.

P. M. Fearnside, Tropical forests of amazonia in schneider, Climate Changes Science and Politicy, 2009.

F. A. Damasceno, He has publication scientific papers in conferences and national and international journals, and graduate in Agricultural Engineering from UFLA, 2006.