Advanced Evaporation Process Simulator

A comprehensive simulation of evaporation dynamics with scientific visualization of molecular behavior under varying environmental conditions

Simulation
Data Analytics
Molecular View
Heat Map
Vapor Density
Water
Ethanol
Acetone
Oil
Temperature (°C)
25
Humidity (%)
50
Surface Area
50%
Wind Speed
3 m/s
Atmospheric Pressure
101.3 kPa

Simulation Data & Analytics

Evaporation Rate

Temperature Distribution

Molecular States

Evaporation Process

Evaporation is a surface phenomenon where liquid molecules transition to the vapor phase. This process occurs when molecules near the surface gain sufficient kinetic energy to overcome intermolecular forces.

Key factors affecting evaporation:

  • Temperature: Higher temperatures increase molecular kinetic energy, accelerating evaporation
  • Humidity: Lower ambient humidity creates a larger vapor pressure gradient
  • Surface Area: Larger surface areas expose more molecules to evaporation
  • Wind Speed: Air movement removes saturated air, maintaining the vapor pressure gradient
  • Atmospheric Pressure: Lower pressures reduce the energy required for phase transition
  • Liquid Properties: Molecular weight, intermolecular forces, and vapor pressure
Evaporation Rate:
0.24 ml/s
Liquid Molecules:
1,250
Vapor Molecules:
750
Avg. Molecule Energy:
5.2 kJ/mol
Evaporation Efficiency:
72%
Simulation Time:
0:45