McCabe-Thiele Method

The McCabe-Thiele method is a graphical technique used to determine the number of theoretical stages required for binary distillation. It assumes constant molar overflow, equilibrium stages, and steady-state operation. This approach provides engineers with an intuitive way to visualize how a distillation column separates a binary mixture based on volatility differences.

✅ What it can do:

• Estimate the number of ideal equilibrium stages.

• Visualize operating lines (rectifying, stripping, and feed lines).

• Evaluate the effect of reflux ratio, feed quality, and Murphree efficiency.

• Show graphical “stepping” between equilibrium and operating lines.

❌ What it cannot do:

• Accurately predict real stage counts without correction for efficiencies.

• Handle multi-component distillation (more than two components).

• Account for energy balances, pressure effects, or varying molar overflow.

• Replace rigorous simulations in professional process simulators.

Below is an interactive simulator that allows you to experiment with the McCabe-Thiele method. You can:

• Adjust feed, distillate, and bottoms compositions.

• Modify reflux ratio and feed quality.

• Input Murphree efficiency to reflect non-ideal stage behavior.

• Choose between an empirical equilibrium curve or a custom dataset.

Use it to visualize how design parameters affect distillation performance: great for learning and quick estimation!