Class: Chloroform

Description

The Chloroform class represents the properties and constants for Chloroform (CHCl₃).
It provides physical and thermodynamic properties required in process engineering simulations and calculations.

Properties

• name (string): Chloroform
• formula (string): CHCl₃
• molecular_weight (float): 119.38 g/mol

Class Reference

class Chloroform()

Parameters:
temperature: Temperature, default = Temperature(25,"C")
pressure: Pressure, default = Pressure(1,"atm")
density: Density, default = None
specific_heat: SpecificHeat, default = None
viscosity: Viscosity, default = None
thermal_conductivity: ThermalConductivity, default = None
vapor_pressure: Pressure, default = None
enthalpy: HeatOfVaporization, default = None

Methods

The properties of the Chloroform class are calculated using the following methods, which are inherited from the base Component class.

• phase(): Detects the phase of the substance ("liquid" or "gas") by comparing the system temperature and vapor pressure.
• density():
  • Liquid Phase: Uses DIPPR or experimental correlation
  • Gas Phase: Uses the Ideal Gas Law
• specific_heat(): Calculates specific heat capacity (Cp​) as a polynomial function of temperature
• viscosity():
  • Liquid Phase: Uses DIPPR correlation
  • Gas Phase: Uses Sutherland’s Law
• thermal_conductivity(): Calculates thermal conductivity (k) as a polynomial function of temperature
• vapor_pressure(): Calculates vapor pressure (Pvap​) using an Antoine-type correlation
• enthalpy(): Calculates the enthalpy of vaporization (ΔHvap​) using a correlation based on reduced temperature

Examples

from processpi.components import Chloroform
from processpi.units import *

chcl3 = Chloroform(temperature=Temperature(25, "C"))
print(chcl3.density().to("kg/m3"))
print(chcl3.viscosity().to("Pa·s"))
print(chcl3.specific_heat().to("J/kgK"))
print(chcl3.thermal_conductivity().to("W/mK"))
print(chcl3.vapor_pressure().to("Pa"))
print(chcl3.enthalpy().to("J/kg"))