Thermal Comfort: Analysis and Applications in Environmental EngineeringMcGraw-Hill, 1970 - 244 pagine |
Sommario
Chapter | 13 |
Chapter 2 | 19 |
Heat Loss by Evaporation of Sweat Secretion | 28 |
Copyright | |
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Thermal Comfort: Analysis and Applications in Environmental Engineering P. O. Fanger Visualizzazione estratti - 1970 |
Parole e frasi comuni
150 kcal/hr m² air temperature ambient temperature angle factor ASHRAE ASHVE Trans calculated ceiling centre climate clo-value clothed body college-age subjects comfort conditions comfort equation comfort lines convective heat transfer Danish determined different activity levels effective radiation area elderly emittance environmental variables experimental females floor FP-A fig FP-B FP-C FP-D function Gagge given heat loss heat transfer coefficient human body humidity influence irradiation Kansas State University kcal/m²hr large number LPPD M/ADu males McNall mean radiant temperature mean value measured menstrual cycle metabolic rate Nevins nude occupied zone optimal thermal comfort Percentage of Dissatisfied practice predicted mean vote PROJECTED AREA FACTOR radiant flux radiant heat radiation area factor radiosity relative air velocity RESISTANCE OF CLOTHING seated persons sedentary standing person sweat secretion thermal environment THERMAL RESISTANCE tmrt Tumrt vapour pressure velocity as parameter wall WET BULB TEMPERATURE YAGLOU