How do you calculate the density of fuel oil?

How do you calculate the density of fuel oil?

Mathematically, density, mass and volume are related according to the following formula: ρ=m/V where ρ=density, m=mass and V=volume. The density of most oils will range between 700 and 950 kilograms per cubic meter (kg/m3).

How do you convert density to different temperatures?

If you know density ρr at some temperature Tr, there is a following formula for density: ρ=ρr[1+b(T−Tr)], where ρ is the density at temperature T and b is called coefficient of cubical expansion, evaluated at reference temperature and density (ρr and Tr).

How do you find volume when given density and temperature?

Subtract the mass of the container from the mass of the substance and container to calculate the mass of the substance (mass of substance = mass of container and substance – mass of container). Calculate the volume of the substance by dividing the mass of the substance by the density (volume = mass/density).

How do you calculate diesel density?

Use the calculator to divide the fluid weight, found in Step 3, by the volume from Step 2. For example, if you poured 16 ml of fluid in the cylinder, you will use 16 ml. If the total weight of the fluid is 16 grams, the calculation would be 16 g / 16 ml. This would give you a density of 1 g/ml.

What is the density of fuel oil?

Fuel Density@15°C – ρ –
(kg/m3) (lb/ft3)
Gas oil 825-900 51-56
Gasoline 715-780 45-49
Fuel Oil No.13) 750-850 47-53

How does oil density change with temperature?

The density of all oils decreased as temperatures increased. There was some variation between oils in the temperature coefficients of the change in density. The density differentials between oil and water and their temperature coefficients varied markedly between the different oils.

Does oil density change with temperature?

How does fuel density change with temperature?

To be sure you have used the correct figure for correction factors, the easy rule is that the volume increases with increasing temperature. Examples of the use: 1. You have 100 liters of a jet fuel with a density of 757 kg/m3 at 100°C.

How do you convert volume to density?

Divide the mass by the density of the substance to determine the volume (mass/density = volume). Remember to keep the units of measure consistent. For example, if the density is given in grams per cubic centimeter, then measure the mass in grams and give the volume in cubic centimeters.

Does fuel density change with temperature?

Since the density of fuel varies greatly depending on temperature, the volume of actual fuel in the tank varies, and therefore the weight varies.

How do you calculate corrected density?

The formula (Corrected Density = Density at 150C X [1 – {(fuel temp (0C) – 150C) X 0.00065}]) should be used to obtain the corrected density at the recorded fuel temperature.

What is the density of oil at 15 degrees Celsius?

Target density of oil, kg/m3. 828.6. Density of oil at 15 deg C. 832.3. Density of oil at 20 deg C. 828.6. Coefficient of volumetric expansion at initial temperature. 0.902. Compression coefficient at initial temperature.

How do you calculate the density of petroleum products?

Calculate the density of petroleum products. multiply the temperature correction to the density of the temperature difference; obtained in Section “d” work to subtract from the density at +20 °C, if the average temperature of the oil product in the tank is above +20 °C, or add this product if the product temperature below +20 °C.

How do you calculate oil temperature correction?

multiply the temperature correction to the density of the temperature difference; obtained in Section “d” work to subtract from the density at +20 °C, if the average temperature of the oil product in the tank is above +20 °C, or add this product if the product temperature below +20 °C.

What is the volume correction factor for fuel oil density?

In the Density vs temperature figure (°C), you se that the light blue line represent this fuel oil. Then, use the light blue line in the Fuel oils volume correction figure (Density@Observed T/Density@15°C). At 200°C the correction factor is 0.859.