**CAS no: **75-62-7

## Properties

#### Generic Properties

Property | Value | Unit |
---|---|---|

Chemical Formula | CBrCl3 | - |

Molecular Weight | 198.273 | - |

Heat of Combustion | 1548.3 | kJ/kg |

#### Critical Properties

Property | Value | Unit |
---|---|---|

Critical Temperature | 606 | K |

Critical Pressure | 49.7 | bar |

Critical Volume | 284 | cm3/mol |

Critical Density | 0.6981 | g/cm3 |

Critical Z | 0.28 | - |

Accentric Factor | 0.192 | - |

### Temperature Dependent Properties

#### Specific Heat

The specific heat at constant pressure can be calculated with the formula:

Constant | Gas | Liquid | Solid |
---|---|---|---|

A | 24.484 | 51.035 | -1.003 |

B | 0.32024 | 0.71628 | 0.46458 |

C | -0.00049096 | -0.0019205 | - |

D | 3.336E-07 | 0.000002095 | - |

E | -8.2982E-11 | - | - |

T min (K) | 100 | 253 | 222 |

T max (K) | 1500 | 545 | 252 |

#### Heat of Formation

The heat of formation can be calculated with the formula:

Constant | Value |
---|---|

A | -58.941 |

B | 0.014925 |

C | -3.0616E-06 |

T min(K) | 332.62 |

T max (K) | 1000 |

#### Viscosity

The viscosity can be calculated with the formula:

For liquid

For Gas

Constant | Gas | Liquid |
---|---|---|

A | -10.642 | -5.5541 |

B | 0.4194 | 1042.1 |

C | -0.000056812 | 0.0103 |

D | - | -0.000009378 |

T min(K) | 250 | 293.15 |

T max(K) | 1000 | 575.7 |

#### Heat of Vaporization

The heat of vaporization can be calculated with the formula:

Constant | Value |
---|---|

A | 45.856 |

n | 0.363 |

T min(K) | 252.15 |

T max(K) | 606 |

#### Thermal Conductivity

The thermal conductivity can be calculated with the formula:

Constant | Gas | Liquid |
---|---|---|

A | -0.0037368 | 0.1245 |

B | 0.000033259 | -0.000057105 |

C | -4.1921E-09 | -1.6852E-07 |

T min(K) | 250 | 282.15 |

T max(K) | 1000 | 536 |

#### Liquid Density

The Liquid Density can be calculated with the Equation:

Constant | Value |
---|---|

A | 0.6985 |

B | 0.28 |

n | 0.2857 |

T min(K) | 252.15 |

T max(K) | 606 |

#### Saturation Pressure

The Saturation Pressure can be calculated with the Antoine Equation:

Constant | Value |
---|---|

A | 7.1184 |

B | 1455.22 |

C | 238.507 |

T min(C) | -21 |

T max(C) | 332.85 |

#### Diffusion Coefficient at Infinite Dilution in Water

The Diffusion Coefficient at Infinite Dilution in Water can be calculation:

Constant | Value |
---|---|

A | -1.4846 |

B | -1057.748 |

T Min(K) | 274 |

T Max(K) | 394 |

#### Diffusion Coefficient in Air

The Diffusion Coefficient in Air can be calculated with the Equation:

Constant | Value |
---|---|

A | -0.03501 |

B | 0.00024339 |

C | 5.1614E-07 |

T min(K) | 200 |

T max(K) | 1000 |