Editing Heat transfer (section)

===Heat transfer in the human body===
{{See also |Wet-bulb temperature}}
The principles of heat transfer in engineering systems can be applied to the human body to determine how the body transfers heat. Heat is produced in the body by the continuous metabolism of nutrients which provides energy for the systems of the body.<ref>Hartman, Carl; Bibb, Lewis. (1913). "The Human Body and Its Enemies". World Book Co., p. 232.</ref> The human body must maintain a consistent internal temperature to maintain healthy bodily functions. Therefore, excess heat must be dissipated from the body to keep it from overheating. When a person engages in elevated levels of physical activity, the body requires additional fuel which increases the metabolic rate and the rate of heat production. The body must then use additional methods to remove the additional heat produced to keep the internal temperature at a healthy level.

[[Convection (heat transfer)|Heat transfer by convection]] is driven by the movement of fluids over the surface of the body. This convective fluid can be either a liquid or a gas. For heat transfer from the outer surface of the body, the convection mechanism is dependent on the surface area of the body, the velocity of the air, and the temperature gradient between the surface of the skin and the ambient air.<ref name="Cengel, Yunus A 2010">Cengel, Yunus A. and Ghajar, Afshin J. "Heat and Mass Transfer: Fundamentals and Applications", McGraw-Hill, 4th Edition, 2010.</ref> The normal temperature of the body is approximately 37&nbsp;°C. Heat transfer occurs more readily when the temperature of the surroundings is significantly less than the normal body temperature. This concept explains why a person feels cold when not enough covering is worn when exposed to a cold environment. Clothing can be considered an insulator which provides thermal resistance to heat flow over the covered portion of the body.<ref>Tao, Xiaoming. "Smart fibres, fabrics, and clothing", Woodhead Publishing, 2001</ref> This thermal resistance causes the temperature on the surface of the clothing to be less than the temperature on the surface of the skin. This smaller temperature gradient between the surface temperature and the ambient temperature will cause a lower rate of heat transfer than if the skin were not covered.

To ensure that one portion of the body is not significantly hotter than another portion, heat must be distributed evenly through the bodily tissues. Blood flowing through blood vessels acts as a convective fluid and helps to prevent any buildup of excess heat inside the tissues of the body. This flow of blood through the vessels can be modeled as pipe flow in an engineering system. The heat carried by the blood is determined by the temperature of the surrounding tissue, the diameter of the blood vessel, the [[Viscosity|thickness of the fluid]], the velocity of the flow, and the heat transfer coefficient of the blood. The velocity, blood vessel diameter, and fluid thickness can all be related to the [[Reynolds Number]], a dimensionless number used in fluid mechanics to characterize the flow of fluids.

[[Latent heat]] loss, also known as evaporative heat loss, accounts for a large fraction of heat loss from the body. When the core temperature of the body increases, the body triggers sweat glands in the skin to bring additional moisture to the surface of the skin. The liquid is then transformed into vapor which removes heat from the surface of the body.<ref>{{cite book| last1=Wilmore|first1=Jack H.|last2=Costill|first2=David L.|last3=Kenney|first3=Larry|title=Physiology of Sport and Exercise| year=2008|publisher=Human Kinetics|isbn=9781450477673|page=256|edition=6th}}</ref> The rate of evaporation heat loss is directly related to the [[vapor pressure]] at the skin surface and the amount of moisture present on the skin.<ref name="Cengel, Yunus A 2010"/> Therefore, the maximum of heat transfer will occur when the skin is completely wet. The body continuously loses water by evaporation but the most significant amount of heat loss occurs during periods of increased physical activity.