Computational Fluid Dynamics (Cfd) Application for Ventilation Studies in Broiler Houses

Curi, Thayla M. R. de C.; Moura, Daniella Jorge de; Massari, Juliana Maria; Mesquita, Márcio; Pereira, Danilo Florentino

doi:10.1590/1809-4430-eng.agric.v37n1p1-12/2017

Cited by 18 publications

(14 citation statements)

References 26 publications

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“…Xue et al (2016) calculated the average NMSE of 0.15 and considered its CFD model to be valid for analyzing the effects of cooling pad installation on airflow distribution in tunnelventilated laying-hen houses. Curi et al (2017b) found NMSE equal to 0.19 for air velocity and validated a CFD model, generated in Ansys CFX 14.0 software, of a broiler house ventilated with negative pressure. Saraz et al (2011) found a maximum NMSE of 0.0035 for air temperature and validated a simulation model to estimate air temperature distribution in poultry house with tunnel ventilation system.…”

Section: Resultsmentioning

confidence: 57%

“…The validation of the reference model for the variables T air , RH and V air was performed by comparing the simulation results and their correspondents obtained experimentally. A procedure adopted by Saraz et al (2011); Xue et al (2016) and Curi et al (2017b) was used, in which the normalized mean squared error (NMSE) is calculated according to Eq. 3, and NMSE values less than 0.25 are acceptable as good indicators of agreement.…”

Section: Methodsmentioning

confidence: 99%

“…In order to optimize the control of internal thermal conditions, diagnosis and validation studies, in which results of fluid simulations were compared to measurements collected in the field, have been carried out (Blanes-Vidal et al, 2008;Bustamante et al, 2013;Hernández et al, 2013;Xue et al, 2016;Curi et al, 2017b). Validated computational fluid dynamics (CFD) models can contribute to reducing time and cost with repetitions in experiments and improving poultry house facilities from parametric simulations, besides providing information on the whole internal environment, whereas field measurements are limited (Bustamante et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Diagnosis and validation by computational fluid dynamics of poultry house with negative pressure ventilation

Cunha

Lopes

Furtado

et al. 2019

Rev. bras. eng. agríc. ambient.

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Negative pressure ventilation in poultry houses has been used to enable the correction of their internal microclimates, and studies point to the heterogeneous distribution of air along the aviaries and the inadequacy of the environmental variables to the recommended ranges for thermal comfort of adult birds, especially in the hottest hours of the day. This study aimed to diagnose the facilities of a poultry house in the state of Paraíba, Brazil, regarding the distribution of environmental variables and thermal comfort; develop a computational model and validate it for Computational Fluid Dynamic - CFD simulations. Air temperature (Tair), air relative humidity (RH) and air velocity (Vair) data allowed characterizing the internal environment by comparison with the recommended ranges for each variable and by the temperature-humidity-velocity index (THVI). The poultry house does not provide comfort for the housed adult birds, between 12 and 14 h, with THVI indicating alert and Tair, RH and Vair values outside the recommended ranges; the CFD model for the poultry house was validated with Tair averages collected in the field of 27.75 ± 1.35 ºC and simulated of 27.85 ± 0.55 ºC, mean values of RH collected of 83 ± 12% and simulated of 78 ± 3%, and means of Vair collected of 2.35 ± 1.35 m s-1 and simulated of 2.50 ± 1.50 m s-1.

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Section: Resultsmentioning

confidence: 57%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Diagnosis and validation by computational fluid dynamics of poultry house with negative pressure ventilation

Cunha

Lopes

Furtado

et al. 2019

Rev. bras. eng. agríc. ambient.

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“…For alternative boundary conditions, convective heat transfer coefficient (h, W m -2 K -1 ) results in higher values for NMSE in both variables; temperature is ~4%, and airflow speed is ~22% (Camargo, 2015; for details in simulation and results). NMSE values below 25% are indicative of a good correlation between simulation and experimental results (Curi et al, 2017). Homogeneous environmental conditions can be obtained with the control of ventilation systems (Calvet et al, 2011;Bustamante et al, 2013), while literature reference values for air speed are 1.5-2.5 m s -1 (Bustamante et al, 2015).…”

Section: Resultsmentioning

confidence: 92%

“…For mesh details, see Camargo (2015). A CFD validation analysis was performed by NMSE -Normalized Mean Square Error methodology (Curi et al, 2017).…”

Section: Numerical Model Cfd Simulation and Validationmentioning

confidence: 99%

Thermal comfort monitoring in aviaries by a real-time data acquisition system

Camargo

Silva

Higa

et al. 2019

Rev. bras. eng. agríc. ambient.

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Thermal comfort inside broiler husbandry facilities is essential in obtaining good results in the production activity. Assessment of adequate thermodynamic conditions requires measurement and control, usually implying costs and specialized maintenance. The objective of this research was to monitor the temperature, relative humidity and air speed distributions by a developed low-cost, open-source and easy-to-use measurement system, using Arduino (hardware) and Scilab (software) for real-time data acquisition. Sensors were installed in a real facility (Cianorte, PR), with measurements for internal ambient (20 sensors for temperature/relative humidity, and two sensors for differential pressure, respectively 0.5 and 1.5 m high) and external ambient (pressure and wind speed, 1.5 m high). Data acquisition system has enabled communication with sensors which are easily read by the computer and stored in a data file. The developed data acquisition system proved to be efficient when applied in a commercial broiler husbandry facility, enabling real-time monitoring for thermal comfort parameters.

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Evaluating the influence of turbulence models used in computational fluid dynamics for the prediction of airflows inside poultry houses

Küçüktopcu

Cemek

2019

Biosystems Engineering

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Computational Fluid Dynamics (Cfd) Application for Ventilation Studies in Broiler Houses

Cited by 18 publications

References 26 publications

Diagnosis and validation by computational fluid dynamics of poultry house with negative pressure ventilation

Diagnosis and validation by computational fluid dynamics of poultry house with negative pressure ventilation

Thermal comfort monitoring in aviaries by a real-time data acquisition system

Evaluating the influence of turbulence models used in computational fluid dynamics for the prediction of airflows inside poultry houses

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