answer sheet upon submission. Points may not be given to any item unless it is not necessary. Answers with erasures will not be considered.) sed PROBLEM 6.1. Production of Trichloroethylene Trichloroethylene, a widely used degreasing solvent for machine parts, is produced in a two-step reaction sequence. Ethylene is first chlorinated to yield terachloroethane, which is ope2 dehydrochlorinated to form trichloroethyle. Reaction 1: Reaction 2: C₂H4(g) + 2 Cl2(g) → C₂H₂C14(1) + H₂(g) C₂H2C14(1)→ C₂HCl3(1) + HCl(g) The standard heat of formation of liquid trichloroethylene is -276.2 kJ/mol. Enthalpy Values and Standard Heats of Reaction Component AH (kJ/mol) C₂H4(g) Cl₂(g) H₂(g) HCl(g) C₂H₂C14(1) C₂HC13(1) (AH)₁=-385.76 kJ/mol Reaction Reaction 1 Reaction 2 Q (kW) AH, (kJ/mol) (2 lom) Assuming W, APE, and AKE are negligible, determine the amount of heat (Q) evolved if 300 mol/h of C₂HC13(1) is produced and the reactants and products are all at 25°C and latm, d University of the Philippines Los Baños Department of Chemical Engineering | MEBAMBASEJR 2023.05.12

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
Summarize your answers in the table provided. Attach a legible and
answer sheet upon submission. Points may not be given to any item without a clea
unless it is not necessary. Answers with erasures will not be considered.
PROBLEM 6.1. Production of Trichloroethylene
Trichloroethylene, a widely used degreasing solvent for machine parts, is produced in a two-step
reaction sequence. Ethylene is first chlorinated to yield terachloroethane, which is
dehydrochlorinated to form trichloroethyle.
C₂H4(g) + 2 Cl2(g) → C₂H₂C14(1) + H₂(g) (AH)1=-385.76 kJ/mol
C₂H2C14(1)→ C2HCl3(1) + HCl(g)
gladins
The standard heat of formation of liquid trichloroethylene is -276.2 kJ/mol.
Reaction 1:
Reaction 2:
(W)
Enthalpy Values and Standard Heats of Reaction
Component
AH (kJ/mol)
C₂H4(g)
Cl₂(g)
H₂(g)
HCl(g)
C₂H₂C14(1)
C₂HCl3 (1)
Q (kW)
Reaction
Reaction 1
Reaction 2
(VD) TUO Hn lato T
(WA) veisdial
(lom\34) H
dom) a
Assuming W, APE, and AKE are negligible, determine the amount of heat (Q) evolved if 300
mol/h of C₂HCl3(1) is produced and the reactants and products are all at 25°C and 1 atm,
TOTE
ladin
off
AH,Ⓡ (kJ/mol)
bodro14 noitem104 to isoll d
(WA) / H Into T
RA
University of the Philippines Los Baños Department of Chemical Engineering | MEBAMBASEJR 2023.05.12
DI
Transcribed Image Text:Summarize your answers in the table provided. Attach a legible and answer sheet upon submission. Points may not be given to any item without a clea unless it is not necessary. Answers with erasures will not be considered. PROBLEM 6.1. Production of Trichloroethylene Trichloroethylene, a widely used degreasing solvent for machine parts, is produced in a two-step reaction sequence. Ethylene is first chlorinated to yield terachloroethane, which is dehydrochlorinated to form trichloroethyle. C₂H4(g) + 2 Cl2(g) → C₂H₂C14(1) + H₂(g) (AH)1=-385.76 kJ/mol C₂H2C14(1)→ C2HCl3(1) + HCl(g) gladins The standard heat of formation of liquid trichloroethylene is -276.2 kJ/mol. Reaction 1: Reaction 2: (W) Enthalpy Values and Standard Heats of Reaction Component AH (kJ/mol) C₂H4(g) Cl₂(g) H₂(g) HCl(g) C₂H₂C14(1) C₂HCl3 (1) Q (kW) Reaction Reaction 1 Reaction 2 (VD) TUO Hn lato T (WA) veisdial (lom\34) H dom) a Assuming W, APE, and AKE are negligible, determine the amount of heat (Q) evolved if 300 mol/h of C₂HCl3(1) is produced and the reactants and products are all at 25°C and 1 atm, TOTE ladin off AH,Ⓡ (kJ/mol) bodro14 noitem104 to isoll d (WA) / H Into T RA University of the Philippines Los Baños Department of Chemical Engineering | MEBAMBASEJR 2023.05.12 DI
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