Purpose Cities are applying reflective coatings on streets in an attempt to mitigate urban heat.These coatings are also being used to try to reduce heat stress during outdoor sports.This study models the progression o...Purpose Cities are applying reflective coatings on streets in an attempt to mitigate urban heat.These coatings are also being used to try to reduce heat stress during outdoor sports.This study models the progression of heat strain in elite marathon and race walk athletes competing on traditional dark asphalt,reflective pavement,or shaded asphalt in past and future Olympic Games[Tokyo(Sapporo),Paris,Los Angeles].Methods Observed weather(Sapporo)or expected climate conditions for each city,along with modeled mean radiant temperature(T_(MRT))differences across the three surface types,were fed into the joint system(JOS-3)thermoregulation model.Resultant changes to heat strain parameters of core temperature(Tcr)and mean skin temperatures(T_(sk)),as well as skin wet-tedness and cardiac output,were modeled.Results Reflective pavement slightly increased the average T_(MRT)(1.2-2.2℃),which caused higher overall radiant heat loads on athletes and thus slightly higher(yet insignificant)Tcr and T_(sk).These changes in simulated heat strain(worsening the situation)are the opposite of what is expected from a heat mitigation technology.Shading the athletes resulted in lower predicted Tcr(−0.37℃)and T_(sk)(−0.68℃)across events compared to sun-exposed asphalt,also decreasing cardiac output.Conclusion The minor increase in T_(MRT) over reflective pavement transferred a negligible difference in simulated athlete heat strain over a 2-3 h intense competition.Overall,the large impact of solar radiation(even in the morning hours)should be decreased via design strategies that block the sun rather than strategies that increase radiant heat load.展开更多
基金supported by funding from the National Science Foundation(NSF)CAREER Award#CMMI-2045663(JKV and GGE)the NSF Leading Engineering for America's Prosperity,Health,and Infrastructure(LEAP HI)#CMMI-2152468 award(KR,AJ,JKV).
文摘Purpose Cities are applying reflective coatings on streets in an attempt to mitigate urban heat.These coatings are also being used to try to reduce heat stress during outdoor sports.This study models the progression of heat strain in elite marathon and race walk athletes competing on traditional dark asphalt,reflective pavement,or shaded asphalt in past and future Olympic Games[Tokyo(Sapporo),Paris,Los Angeles].Methods Observed weather(Sapporo)or expected climate conditions for each city,along with modeled mean radiant temperature(T_(MRT))differences across the three surface types,were fed into the joint system(JOS-3)thermoregulation model.Resultant changes to heat strain parameters of core temperature(Tcr)and mean skin temperatures(T_(sk)),as well as skin wet-tedness and cardiac output,were modeled.Results Reflective pavement slightly increased the average T_(MRT)(1.2-2.2℃),which caused higher overall radiant heat loads on athletes and thus slightly higher(yet insignificant)Tcr and T_(sk).These changes in simulated heat strain(worsening the situation)are the opposite of what is expected from a heat mitigation technology.Shading the athletes resulted in lower predicted Tcr(−0.37℃)and T_(sk)(−0.68℃)across events compared to sun-exposed asphalt,also decreasing cardiac output.Conclusion The minor increase in T_(MRT) over reflective pavement transferred a negligible difference in simulated athlete heat strain over a 2-3 h intense competition.Overall,the large impact of solar radiation(even in the morning hours)should be decreased via design strategies that block the sun rather than strategies that increase radiant heat load.
