Saturated steam-water mixture is split in a knockout drum at a rate of 3040 kg/h. The incoming steam has a temperature of 120°C. Water and the pure steam come out of the knockout drum at 100°C. Calculate the amount of water that condensed in the knockout drum. H20 Enthalpy Table (Steam Table) Temperature, C 100 120 Saturated Steam- Water Mixture 3040 kg/h 120°C Pure Water Enthalpy, kJ/kg 418.655 503.300 Pure Steam Enthalpy, kJ/kg 2675.06 2705.41 Steam-Water Enthalpy, kJ/kg 2256.40 2202.11 Pure steam ??? kg/h 100°C Pure Water ??? kg/h 100°C

Saturated steam-water mixture is split in a knockout drum at a rate of 3040 kg/h. The incoming steam has a temperature of 120°C. Water and the pure steam come out of the knockout drum at 100°C. Calculate the amount of water that condensed in the knockout drum. H20 Enthalpy Table (Steam Table) Temperature, C 100 120 Saturated Steam- Water Mixture 3040 kg/h 120°C Pure Water Enthalpy, kJ/kg 418.655 503.300 Pure Steam Enthalpy, kJ/kg 2675.06 2705.41 Steam-Water Enthalpy, kJ/kg 2256.40 2202.11 Pure steam ??? kg/h 100°C Pure Water ??? kg/h 100°C

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

Saturated steam-water mixture is split in a knockout drum at a rate of 3040 kg/h. The incoming steam
has a temperature of 120°C. Water and the pure steam come out of the knockout drum at 100°C.
Calculate the amount of water that condensed in the knockout drum.
H20 Enthalpy Table (Steam Table)
Temperature, °C
100
120
Saturated Steam-
Water Mixture
3040 kg/h
120°C
Pure Water Enthalpy,
kJ/kg
418.655
503.300
Pure Steam Enthalpy,
kJ/kg
2675.06
2705.41
Steam-Water Enthalpy,
kJ/kg
2256.40
2202.11
Pure steam
??? kg/h
100°C
Pure Water
??? kg/h
100°C

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