Crude Oil Petroleum Specific Gravity Density Yield Structure Gasoil VGO Diesel Naphtha Residue
Reference data and engineering information about crude oil petroleum specific gravity density yield structure gasoil vgo diesel naphtha residue for thermodynamics applications.
crudeoilpetroleumspecificData Table
Overview
Engineering reference data for Crude Oil Petroleum Specific Gravity Density Yield Structure Gasoil VGO Diesel Naphtha Residue in thermodynamics.
Key Formulas
First Law
Energy is conserved — heat added minus work done.
Ideal Gas Law
Relates pressure, volume, and temperature of an ideal gas.
Heat Transfer
Sensible heat transfer.
Carnot Efficiency
Maximum efficiency between two temperatures.
Variables
| Symbol | Description | Unit |
|---|---|---|
| Internal energy | J | |
| Heat | J | |
| Work | J | |
| Pressure | Pa | |
| Volume | m³ | |
| Temperature | K |
Data Table
20 rows
col0 |
|---|
| C4s |
| Light naphtha |
| Heavy naphtha |
| Kero |
| Light gas oil |
| Heavy gas oil |
| Vacuum gas oil |
| Atmospheric resid |
| Vacuum resid |
| Yields of crude fractions given in volume% |
| North American marked |
| Crude fraction |
| C4s |
| Light naphtha |
| Heavy naphtha |
| Kerosene |
| Diesel |
| Vacuum gas oil |
| Atmospheric resid |
| Vacuum resid |
Source: engineeringtoolbox.com