Introduction

Chemical engineering problems frequently require determining the Degrees of Freedom (DOF) of a process. DOF tells us how many process variables must be specified to fully define a system based on mass balances and constraints.

This article analyzes a system containing a separator and a mixer, a common flowsheet in material balance problems.

Problem Statement

A feed stream F₁ containing components A and B is processed along with a recycle stream F₂.

A separator produces two streams that recombine in a mixer before exiting as stream F₆.

Given:

F₁ + F₂ = 100 kg/h

Each stream contains two components A and B with mole fractions x_A and x_B.

Question: What is the degrees of freedom (DOF) of the system?

Step-by-Step DOF Analysis

Variables Present

Six streams → F₁, F₂, F₃, F₄, F₅, F₆

Each stream has:

• One flow rate
• One independent composition (since x_A + x_B = 1)

Total variables: 6 flowrates + 6 compositions = 12

Independent Equations Available

For two-component system:

• Overall mass balance
• Component balances at:
  • Mixer → 2 balances
  • Separator → 2 balances
• Composition constraints: For 6 streams x_A + x_B = 1 gives 6 constraints

Total equations: 1 + 2 + 2 + 6 = 11

Given Constraint

F₁ + F₂ = 100 kg/h ⇒ 1 more equation

Total equations now: 11 + 1 = 12

Degrees of Freedom

DOF = Variables − Equations = 12 − 12 = 0

Correct Answer

0

The system is fully specified.

Explanation of All Possible Options

Conclusion

The system contains exactly the right number of equations to solve all stream variables, meaning the flowsheet is completely defined.