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Idioma Inglês (199) Francês (13) Português (7) Espanhol (3) Alemão (1)		Registro completo Provedor de dados:  CIGR Journal País:  China Título:  Mimicking Indoor Climate Dynamics and Ammonia Emissions in a Pig Housing Compartment Using Artificial Pigs and an Automatic Urea Spraying Installation Autores:  Tabase, Raphael Kubeba Data:  2019-04-30 Ano:  2019 Palavras-chave:  Ammonia Emission Modeling Pig housing Test platform Ventilation Belgium Resumo:  The study aims to develop a test platform (TP) compartment that could mimic diurnal variations in indoor climate and NH3 emission in a real pig compartment and to compare diurnal indoor climate and NH3 production between two TP compartments and a real compartment. The objectives were achieved by using a real and TP compartment followed by an ad hoc test that used two TP compartments and another real compartment. The TP had two compartments equipped with mock-up pigs as heat source and automatic urea solution spraying installation to mimic pig urination at the pen floor. The study evaluated indoor climate and NH3 production in a 4-day comparative test between a TP and a real compartment followed by a 3-day comparative test between two TP compartments and a real compartment where exhaust and slurry pit NH3 concentrations, ventilation rate, indoor temperature and relative humidity were simultaneously measured. The TP reproduced comparable diurnal measured parameters in the real compartment. The TP compartment overestimated NH3 emissions in the real compartment by 23% (R2 = 0.27) in the first experiment. In the second experiment, the two TP compartments overestimated NH3 emissions in the real compartment by 38% (R2 = 0.36) and 44% (R2 = 0.37). The overestimated NH3 emission in the TP was probably due to differences in urea solution vs. pig urine chemistry and floor fouling characteristics. The two TP compartments when compared showed similar diurnal trends in NH3 concentration and emission rate with hourly averages of 11.5 ± 4.1 vs. 11.6 ± 2.8 ppm and 13.2 ± 3.0 vs. 12.1 ± 2.9 g/h, respectively. The study shows the TP could simulate indoor climate dynamics and NH3 emissions trends in a real compartment and therefore could be used to study NH3 volatilization processes and emission reduction techniques studies on relative emission basis. Tipo:  Info:eu-repo/semantics/article Idioma:  Inglês Identificador:  http://www.cigrjournal.org/index.php/Ejounral/article/view/5216 Editor:  International Commission of Agricultural and Biosystems Engineering Relação:  http://www.cigrjournal.org/index.php/Ejounral/article/view/5216/2909 http://www.cigrjournal.org/index.php/Ejounral/article/downloadSuppFile/5216/2328 Formato:  application/pdf Fonte:  Agricultural Engineering International: CIGR Journal; Vol 21, No 1 (2019): CIGR Journal; 40-50 1682-1130 Direitos:  Copyright (c) 2019 Agricultural Engineering International: CIGR Journal Fechar

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