NUMERICAL SIMULATION OF THE PLACEMENT OF EXHAUST FANS IN A TUNNEL-VENTILATED LAYER HOUSE DURING THE FALL

Xiaoshuai Wang, Jiangong Li, Jiegang Wu, Qianying Yi, Xinlei Wang, Kaiying Wang

Research output: Contribution to journalArticlepeer-review

Abstract

The thermal environment inside a layer house significantly affects the growth, production, and health of the hens. Tunnel ventilation systems have been widely applied to control the indoor climate and air quality for large-scale poultry facilities around the world. Generally, only a few of the exhaust fans operate during mild seasons (spring and fall) in a tunnel-ventilated layer house depending on the outside air temperature. The decision about which exhaust fans to turn on affects the indoor airflow pattern and temperature distribution. However, little research has been reported that investigated the effects of the locations of exhaust fans on ventilation performance. In this study, a computational fluid dynamics (CFD) model was built and validated using field-measured data. The CFD model was then used to evaluate different ventilation strategies (combinations of exhaust fans) in a typical tunnel-ventilated layer house during the fall. The effective temperature was used to assess the performance of different ventilation strategies. Results showed that the locations of the exhaust fans significantly affected the indoor thermal environment, especially in the part of the house closest to the fans, because different locations of operating fans can generate different airflow patterns and affect the airflow through the animal-occupied zone. Based on the simulations, we conclude that the placement and operation of the exhaust fans can be optimized. Turning on the fans that are lower to the ground or near the sidewalls will result in more air bypassing the animal-occupied zones. Our results can help select the best ventilation strategy during the spring and fall in layer houses with tunnel ventilation systems.

Original languageEnglish (US)
Pages (from-to)1955-1966
Number of pages12
JournalTransactions of the ASABE
Volume64
Issue number6
DOIs
StatePublished - 2021

Keywords

  • Airflow distribution
  • Effective temperature distribution
  • Indoor thermal environments
  • Ventilation strategy

ASJC Scopus subject areas

  • Forestry
  • Food Science
  • Biomedical Engineering
  • Agronomy and Crop Science
  • Soil Science

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