Please specify exactly the type of this fuel to find the density in catalogs.
Also kilogram/metric tonne is not a unit for density.
Generally petroleum diesel has a density of 0,832 kg/L or 832 kg/cubic meter.
There are approximately 312 gallons of D2 diesel fuel in one metric ton. This can vary slightly depending on the density of the fuel.
This is the energy in Joule/kilogram of the fuel.
1/0.8 = 1.25 metres3 1,250/ 4.546 = 275 imperial gallons 1,250/ 3.785 = 330.25 U.S.gallons
The energy density of charcoal is typically around 29 megajoules per kilogram (MJ/kg). This means that charcoal has a high energy content per unit weight, making it a popular fuel source for cooking and heating applications.
The density of diesel fuel is dependent upon temperature (it is better to fill your vehicle early in the morning whilst the fuel is cooler and much denser, meaning you get more fuel for the volume). Assuming a density of 0.832 kg/l: 4.55 l ≈ 1 imp gal 1 tonne (metric ton) = 1000 kg = 1000 ÷ 0.832 l ≈ 1202 l ≈ 1202 ÷ 4.55 imp gal ≈ 264.4 imp gal.
To convert cubic meters to metric tons of fuel oil, you need to know the density of the fuel oil in metric tons per cubic meter. Once you have the density value, you can multiply the number of cubic meters by the density to get the mass in metric tons. The formula for this conversion is: Mass (in metric tons) = Volume (in cubic meters) x Density (in metric tons per cubic meter).
0.93 tonnes per m3
There are approximately 312 gallons of D2 diesel fuel in one metric ton. This can vary slightly depending on the density of the fuel.
To convert metric tons to liters for diesel, we need to know the density of diesel fuel. The density of diesel fuel is approximately 0.85 kg/L. Since 1 metric ton is equal to 1000 kg, we can calculate the volume in liters by dividing the weight in kilograms by the density. Therefore, 25,000 metric tons of diesel would be approximately 29,411.76 liters (25,000,000 kg / 0.85 kg/L).
There are 1000 kilograms (kg) in a metric ton (or tonne). And there are about 0.264 gallons in a litre. Also, the density of diesel fuel is right at about 0.85 kilograms per litre. Since you have a metric ton of diesel fuel, that is 1000 kilograms of diesel fuel, you need to know how many litres of diesel fuel you have. Divide 1000 kg by 0.85 kg/litre and you'll get about 1176.5 litres. Now convert that to gallons by multiplying 1176.5 litres by 0.264 gallons/litre and you'll get about 310.6 gallons of diesel fuel in that metric ton you started with.
To convert a metric ton of fuel oil with 3.5% sulfur content to barrels, you would need to know the specific gravity of the fuel oil. The conversion factor will depend on the density of the fuel oil, which can vary. It is recommended to consult a fuel oil conversion chart or use a specific formula based on the density of the fuel oil being used.
(Tonnes / specific gravity) * 264.17 = gallons (US) (Tonnes / specific gravity ) * 219.97 = gallons (impereal) Example: 1 Tonne fuel oil , specific gravity 0.89 , US gallons ? (1 / 0.89) * 264.17 = 296.82 US gallons (approx)
The conversion rate of metric tons to gallons depends on the density of the substance being measured. Bunker fuel, a type of fuel oil used in ships, has a density of around 0.96 metric tons per cubic meter. Therefore, to convert metric tons of bunker fuel to gallons, you would need to know the volume in cubic meters and then use the conversion factor of 1 cubic meter being approximately equal to 264.172 gallons.
To convert metric tons of jet fuel to barrels, you can use an approximate conversion factor: 1 metric ton of jet fuel is roughly equivalent to 7.5 barrels. Therefore, 125,000 metric tons of jet fuel would be approximately 937,500 barrels (125,000 x 7.5 = 937,500). Keep in mind that this is an estimate and actual values may vary slightly based on the specific density of the fuel.
About a thousand. One thousand litres of water weighs a tonne, and there is little difference in density between water and fuel.
1,183 litres of jet fuel in a metric tonne
Energy density is typically measured in units such as joules per kilogram (J/kg) or watt-hours per kilogram (Wh/kg). It represents the amount of energy stored in a given quantity of a particular material or fuel. This measurement is important for evaluating the efficiency and practicality of energy storage devices and systems.