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Introduction to Chemical Engineering Thermodynamics

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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Saturated steam at 100 kPa is discharged from a turbine at a rate of 1150 kg/h. Superheated steam at 300 ^oC and 100 kPa is needed as a feed to a heat exchanger. To produce it, the turbine discharge stream is mixed with superheated steam available from a second source at 400 ^oC and 100 kPa. The mixing unit operates adiabatically. Calculate

the quantity of superheated steam at 300 ^oC produced.
the required volumetric flowrate of the 400 ^oC steam.

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3 Having just invented a new type of calorimeter, Dr. Campbell needs to determine the heat capacity of the calorimeter. She carries out the following experiment to do this: She puts 20.0 grams of water in her empty calorimeter and it is allowed to stabilize at a temperature of 25.0ºC. She then adds 35.586 grams of water at a temperature of 83ºC to the calorimeter. After a few minutes the final temperature of the calorimeter stabilizes at 47.8ºC. Based on this experiment, what is the heat capacity of her calorimeter assuming units of J/ºC? Enter your answer with at least 3 sig figs.
Please answer legibly. Heat and Mass Transfer Evaporation
The liquid food is flowed through an uninsulated pipe at 90 ° C. The product flow rate is 0.25 kg / s and has a density of 1000 kg / m³, a specific heat of 4 kJ / (kg K), a viscosity of 8 x 10-6 Pa s, and a thermal conductivity of 0.55 W / (m) K). Assume that the change in viscosity is negligible. The internal diameter of the pipe is 25 mm with a thickness of 3 mm made of stainless steel (k = 15 W / [m ° C]). The outside temperature is 15 ° C. If the outer convective heat transfer coefficient is 18 W / (m² K), calculate the heat loss at steady state per meter pipe length. a. Find the convection coefficient in the pipe = AnswerW / m² ° C. b. Calculate heat loss per meter pipe length = Answerwatt.

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