Effective Temperature for Poultry and Pigs in Hot Climate

Bjarne Schmidt Bjerg; Guoqiang Zhang; Poul Pedersen; Svend  Morsing

doi:10.5772/intechopen.72821

Effective Temperature for Poultry and Pigs in Hot Climate

Bjarne Schmidt Bjerg, Guoqiang Zhang, Poul Pedersen, Svend Morsing

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Abstract

Existing knowledge on the relative significance of air temperature, humidity, and velocity in a hot environment for housed pigs and poultry is reviewed and synthesized in an effective temperature (ET) equation. The suggested unit has an easily perceivable scale where ET is equal to air temperature if the relative humidity is 50% and the air velocity is 0.2 ms1. The included method to determine the relative significance of air temperature and humidity is similar to the way it is done in the Temperature Humidity Index.
Several authors have suggested different Thermal Humidity Indices for different categories of animals, but this chapter found no evidence that the relative importance of temperature and humidity is different for pigs than for poultry or for large than small ones. The suggested ET equation includes a separate velocity term, which assumes that the chill effect is proportional to the air velocity or to the square root of the air velocity and that the chill effect declines linearly with increased air temperature until it becomes insignificant as the air temperature approaches the animal body temperature.

Original language	English
Title of host publication	Animal Husbandry and Nutrition
Publisher	InTechOpen
Publication date	Jul 2018
Pages	23-41
Chapter	2
ISBN (Print)	978-1-78923-421-3
ISBN (Electronic)	978-1-78923-421-3
DOIs	https://doi.org/10.5772/intechopen.72821
Publication status	Published - Jul 2018

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Effective Temperature for Poultry and Pigs in Hot ClimateFinal published version, 2.05 MBLicence: CC BY

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title = "Effective Temperature for Poultry and Pigs in Hot Climate",

abstract = "Existing knowledge on the relative significance of air temperature, humidity, and velocity in a hot environment for housed pigs and poultry is reviewed and synthesized in an effective temperature (ET) equation. The suggested unit has an easily perceivable scale where ET is equal to air temperature if the relative humidity is 50% and the air velocity is 0.2 ms1. The included method to determine the relative significance of air temperature and humidity is similar to the way it is done in the Temperature Humidity Index.Several authors have suggested different Thermal Humidity Indices for different categories of animals, but this chapter found no evidence that the relative importance of temperature and humidity is different for pigs than for poultry or for large than small ones. The suggested ET equation includes a separate velocity term, which assumes that the chill effect is proportional to the air velocity or to the square root of the air velocity and that the chill effect declines linearly with increased air temperature until it becomes insignificant as the air temperature approaches the animal body temperature.",

author = "Bjerg, {Bjarne Schmidt} and Guoqiang Zhang and Poul Pedersen and Svend Morsing",

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T1 - Effective Temperature for Poultry and Pigs in Hot Climate

AU - Bjerg, Bjarne Schmidt

AU - Zhang, Guoqiang

AU - Pedersen, Poul

AU - Morsing, Svend

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N2 - Existing knowledge on the relative significance of air temperature, humidity, and velocity in a hot environment for housed pigs and poultry is reviewed and synthesized in an effective temperature (ET) equation. The suggested unit has an easily perceivable scale where ET is equal to air temperature if the relative humidity is 50% and the air velocity is 0.2 ms1. The included method to determine the relative significance of air temperature and humidity is similar to the way it is done in the Temperature Humidity Index.Several authors have suggested different Thermal Humidity Indices for different categories of animals, but this chapter found no evidence that the relative importance of temperature and humidity is different for pigs than for poultry or for large than small ones. The suggested ET equation includes a separate velocity term, which assumes that the chill effect is proportional to the air velocity or to the square root of the air velocity and that the chill effect declines linearly with increased air temperature until it becomes insignificant as the air temperature approaches the animal body temperature.

AB - Existing knowledge on the relative significance of air temperature, humidity, and velocity in a hot environment for housed pigs and poultry is reviewed and synthesized in an effective temperature (ET) equation. The suggested unit has an easily perceivable scale where ET is equal to air temperature if the relative humidity is 50% and the air velocity is 0.2 ms1. The included method to determine the relative significance of air temperature and humidity is similar to the way it is done in the Temperature Humidity Index.Several authors have suggested different Thermal Humidity Indices for different categories of animals, but this chapter found no evidence that the relative importance of temperature and humidity is different for pigs than for poultry or for large than small ones. The suggested ET equation includes a separate velocity term, which assumes that the chill effect is proportional to the air velocity or to the square root of the air velocity and that the chill effect declines linearly with increased air temperature until it becomes insignificant as the air temperature approaches the animal body temperature.

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Effective Temperature for Poultry and Pigs in Hot Climate

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