Solution:Cc = mc Cpc= (0.667 kg/s) (4.192 kJ/kg K)Cc = 2.79 kW/KCH (2.85 kg/s) (1.89 kJ/kg K)CH= 5.39 kW/kCmin= = 2.79 kW/kb) q= Cc (Tco - Tci)qCcTco=2.79+ Tci Tco148kWkWKTco = 361 K=+308 KNTU=UA/Cmin(3002) (15.0m²)W2790NTU = 1.61CminCc= -0.51CmaxCHε = 0.71q==Cmin (THr – Ta) = 0.71(2.79 *r )(383 – 308)K-HI9 = 148 kW Heat and Mass TransferQuestion: From the answered problem below, assume 361 K as Teo or Cp = 4.184kJ/kg KWater Flowing at a rate of 0.667 kg/s enters a countercurrent heat exchanger at 308 Kand is heated by an oil stream (Cp = 1.89 (kJ/kg K) at 383 K at a rate of 2.85 kg/s, theoverall U = 300 W/m² K and A= 15.0m².Calculate:a) heat-transfer rate (q)b) exit water stream temperature (T.co)Given:mH = 2.85 kg/sTci = 308 KСpH = 1.89 kJ/kg Kmc = 0.667 kg/sU = 300 W/m² kAssuming:A = 15.0m²Tco1 = 370 KCpc = 4.192 kJ/ kg K

Given: Cold fluid (water) enters a heat exchanger at a mass flow rate of mc = 0.667 (kg/s) at a…

Heat and Mass Transfer Question: From the answered problem below, assume 361 K as Tco or Cp = 4.184 kJ/kg K Water Flowing at a rate of 0.667 kg/s enters a countercurrent heat exchanger at 308 K and is heated by an oil stream (Cp = 1.89 (kJ/kg-K) at 383 K at a rate of 2.85 kg/s, the overall U = 300 W/m² K and A= 15.0m². Calculate: a) heat-transfer rate (q) b) exit water stream temperature (Tco) Given: Tci = 308 K mc = 0.667 kg/s Assuming: Tco1 = 370 K Cpc = 4.192 kJ/ kg K mH = 2.85 kg/s СpH = 1.89 kJ/kg K U = 300 W/m² k A = 15.0m²

Heat and Mass Transfer Question: From the answered problem below, assume 361 K as Tco or Cp = 4.184 kJ/kg K Water Flowing at a rate of 0.667 kg/s enters a countercurrent heat exchanger at 308 K and is heated by an oil stream (Cp = 1.89 (kJ/kg-K) at 383 K at a rate of 2.85 kg/s, the overall U = 300 W/m² K and A= 15.0m². Calculate: a) heat-transfer rate (q) b) exit water stream temperature (Tco) Given: Tci = 308 K mc = 0.667 kg/s Assuming: Tco1 = 370 K Cpc = 4.192 kJ/ kg K mH = 2.85 kg/s СpH = 1.89 kJ/kg K U = 300 W/m² k A = 15.0m²

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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Question

Solution:
Cc = mc Cpc
= (0.667 kg/s) (4.192 kJ/kg K)
Cc = 2.79 kW/K
CH (2.85 kg/s) (1.89 kJ/kg K)
CH= 5.39 kW/k
Cmin= = 2.79 kW/k
b) q= Cc (Tco - Tci)
q
Cc
Tco=
2.79
+ Tci Tco
148kW
kW
K
Tco = 361 K
=
+308 K
NTU=UA/Cmin
(3002) (15.0m²)
W
2790
NTU = 1.61
Cmin
Cc
= -0.51
Cmax
CH
ε = 0.71
q==Cmin (THr – Ta) = 0.71(2.79 *r )(383 – 308)K
-
HI
9 = 148 kW

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