During a period of relative inactivity, the average rate of transport of enthalpy by the metabolic anddigestive waste products leaving the body, minus the rate of enthalpy transport by the raw materialsingested and breathed into the body, is approximately AH -300 kJ/h. Heat is transferred from the bodyto its surroundings at a rate given by:Q = hA(T To)where A is the body surface area (approximately 1.8m2 for an adult), Ts is the skin temperature (normally34.2°C), To is the temperature of the body surroundings, and h is the heat transfer coefficient. Typicalvalues of h for the human body are:(fully clothed, slight breeze blowing)h 8 kJ/(m2-h-°C)=h 64 kJ/(m2-h-°C)(in a bathing suit, immersed in water)a)Consider the human body as a continuous system at steady state. Write an energy balance on thebody, making all appropriate simplifications and substitutions.b) Calculate the surrounding temperature for which the energy balance is satisfied (i.e. when acold) for a clothed person and for a person swimming. You canperson would feel neither hot norassume skin temperature remains constant

Given information in the problem as follow:Average rate of transport enthalpy by metabolic and…

Answered: During a period of relative inactivity,…

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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A rectifying column consists of a tube arranged vertically and supplied at the bottom with a mixture of benzene and toluene as vapor. At the top, a condenser returns some of the product as a reflux which flows in a thin film down the inner wall of the tube. At one point in the column, the vapor contains 60 mol% benzene and the adjacent liquid reflux contains 51 mol% benzene. The temperature at this point is 92°C. Assuming the diffusional resistance to vapor transfer to be equivalent to the diffusional resistance of a štagnant vapor layer 0.5 mm thick, calculate the rate of interchange of benzene and toluene between vapor and liquid. The molar latent heats of the two materials can be taken as equal. The vapour pressure of toluene at 92°C is 44.0 kN/m2 and the diffusivity of the vapors is 0.053 cm?/s.
2. Fruit is impeded from ripening when it reaches high temperatures (>32°C). Farmer Joe is roo worried that Princeton's summer heat wave will affect the ripening of his ground cherries. The spherical fruit (1 cm in diameter) is surrounded by a spherical papery husk (husk = 0.3 W/m K) with an inner diameter of 2 cm and an outer diameter of 2.1 cm. The air in between the fruit and the husk is stagnant (air = 0.03 W/m K). On a calm day in July, the Princeton air (outside of the husk) is very warm, with a temperature of ~38°C and a heat transfer coefficient of hPrinceton,calm = 10 W/m².K. (a) Sketch the system, labeling all temperatures, dimensions, and proportionality constants.
Earth's climate extremes are moderated by circulation patterns in the oceans and the atmosphere that move heat from the tropics pole wards. Warm tropical waters evaporate and are moved by currents in the upper atmosphere to mid-latitudes where the water vapor cools, condenses, and falls as rain. a) How much heat energy is released to the upper atmosphere in the mid-latitudes when a vaporous mass of .034g of water condenses into a raindrop? b) After it forms, the temperature of the raindrop falls another 13C. How much more energy is released to the atmosphere in this process? The latent heat of fusion for water is 33.5*104 J/kg The latent heat of vaporization of water is 22.6 *105 J/kg The specific heat of water is 4186 J/(kgC)

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