ELEM.PRINCIPLES OF CHEMICAL PROCESSES
ELEM.PRINCIPLES OF CHEMICAL PROCESSES
4th Edition
ISBN: 9781119571070
Author: FELDER
Publisher: WILEY
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Chapter 10, Problem 10.23P
Interpretation Introduction

(a)

Interpretation:

Calculate the initial concentrations of both reactants and derive relations for the concentrations of CO, Cl2.

Concept introduction:

Number of moles produced can be calculated using the equation,

N=(VVSTR)(TSTPT)(PPSTP)(1mol)

Where, VSTR = volume of 1 mol substance at STP, TSTP = temperature of 1 mol at STP, PSTP = pressure of 1 mol substance at STP

Interpretation Introduction

(b)

Interpretation:

Derive the given relationship.

Concept introduction:

Number of moles produced can be calculated using the equation,

N=(VVSTR)(TSTPT)(PPSTP)(1mol)

Where, VSTR = volume of 1 mol substance at STP, TSTP = temperature of 1 mol at STP, PSTP = pressure of 1 mol substance at STP

Interpretation Introduction

(c)

Interpretation:

Sketch the plot of Cp versus t and explain the graph and determine the maximum value.

Concept introduction:

Number of moles produced can be calculated using the equation,

N=(VVSTR)(TSTPT)(PPSTP)(1mol)

Where, VSTR = volume of 1 mol substance at STP, TSTP = temperature of 1 mol at STP, PSTP = pressure of 1 mol substance at STP

Interpretation Introduction

(d)

Interpretation:

Derive an expression for the time required to achieve a 75% conversion of the limiting reactant.

Concept introduction:

Number of moles produced can be calculated using the equation,

N=(VVSTR)(TSTPT)(PPSTP)(1mol)

Where, VSTR = volume of 1 mol substance at STP, TSTP = temperature of 1 mol at STP, PSTP = pressure of 1 mol substance at STP

Interpretation Introduction

(e)

Interpretation:

Use Simpson’s rule to integrate the given expression.

Concept introduction:

Number of moles produced can be calculated using the equation,

N=(VVSTR)(TSTPT)(PPSTP)(1mol)

Where, VSTR = volume of 1 mol substance at STP, TSTP = temperature of 1 mol at STP, PSTP = pressure of 1 mol substance at STP

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