Dairy Cow Thermal Balance Model During Heat Stress: Part 1. Model Development

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING
Chad R. Nelson, K. Janni
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Abstract

Highlights Equations for a modified steady-state thermal balance model solved with a spreadsheet are described. The modified model describes heat exchange between lactating cows and the surrounding environment. New relations were used for tissue insulation, sweat rate, longwave radiation, and convective heat exchange. A companion paper compares model results to published body temperatures, respiration rates, and skin temperatures. Abstract. Dairy cow heat stress impacts cow well-being, reduces milk yield, and leads to economic losses. Understanding heat stress mechanics supports ongoing and future efforts to mitigate heat stress. The purpose of this project was to modify a steady-state heat transfer model developed by McGovern and Bruce (2000) by incorporating work by Berman (2005), McArthur (1987), Turnpenny et al. (2000a,b), Thompson et al. (2014), Gwadera et al. (2017), two new empirical relations for tissue insulation and sweat rate, and a new solution method that allowed for overlapping changes in heat exchange. The modified model describes heat exchange between a lactating cow and the environment through respiration, convection, sweating, and shortwave and longwave radiation. This article describes the process-based model equations, compares results from the two new empirical relations used to published work, and presents the inputs and results for a cow on pasture in sunlight. The modified model, which can be solved with a spreadsheet, provides insight into factors and processes that affect lactating cow heat exchange. A companion paper compares the modified model results with published average measured body temperatures, respiration rates, and skin temperatures and unpublished body temperature data for cows on pasture in the sunshine. Keywords: Body temperature, Dairy, Heat stress, Lactating cow, Respiration rate, Thermal balance model.
奶牛热应激过程中的热平衡模型:第1部分。模型开发
重点描述了用电子表格求解的改进稳态热平衡模型的方程。修正后的模型描述了泌乳奶牛与周围环境之间的热交换。在组织绝缘、排汗率、长波辐射和对流换热之间建立了新的关系。另一篇论文将模型结果与公布的体温、呼吸速率和皮肤温度进行了比较。摘要奶牛热应激会影响奶牛的健康,降低产奶量,并导致经济损失。了解热应激机制有助于当前和未来减轻热应激的努力。该项目的目的是修改McGovern和Bruce(2000)开发的稳态传热模型,纳入Berman (2005), McArthur (1987), Turnpenny等人(2000a,b), Thompson等人(2014),Gwadera等人(2017)的工作,组织隔热和出汗率的两个新的经验关系,以及允许热交换重叠变化的新解决方法。修正后的模型描述了泌乳奶牛与环境之间通过呼吸、对流、出汗、短波和长波辐射进行的热交换。本文描述了基于过程的模型方程,比较了两种新的经验关系的结果,并给出了奶牛在阳光下放牧的输入和结果。修改后的模型可以用电子表格解决,它提供了对影响泌乳奶牛热交换的因素和过程的深入了解。另一篇论文将修正后的模型结果与已发表的平均测量体温、呼吸速率、皮肤温度和未发表的奶牛在阳光下放牧的体温数据进行了比较。关键词:体温,奶牛,热应激,泌乳奶牛,呼吸速率,热平衡模型
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CiteScore
3.10
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