It depends on the calorific value of the fuel.
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.
A prime mover is a machine, such as a water wheel or steam engine, that receives and modifies energy as supplied by some natural source or fuel and transforms it into mechanical work.
It depends on what sized engine you have and how hard you drive it. There are other factors as well e.g. tyre pressure, wind direction and speed.
That there is no fuel in it!
It depends on what you mean By How Many. If you mean how many difrent parts make up the fuel lines I need to know Year, Transmission and Engine type. If you mean fuel line assemblies there are two. Presure line from tank to fuel injection and Low pressure return line to tank. There are several other lines that look like fuel lines that are for the fuel tank vapours.
Approximately 30,000 kilograms of coal would need to be burned to produce the same amount of energy as is generated by a kilogram of uranium fuel pellet. Uranium fuel has a much higher energy density than coal, making it a more efficient and cleaner source of energy.
You can't. No internal combustion engine will run on water except a steam engine, and even that requires another fuel to produce the steam.
The cost to extract fossil fuels varies depending on the type (oil, coal, natural gas) and location. It includes expenses such as exploration, drilling, equipment, labor, and transportation. Costs can range from a few dollars per barrel of oil equivalent to tens of dollars depending on the complexity and location of the resource.
To convert the density of fuel from kilograms to metric tonnes, divide the density value in kilograms by 1000. This is because there are 1000 kilograms in a metric tonne. For example, if the density of the fuel is 800 kilograms per cubic meter, the density in metric tonnes would be 0.8 metric tonnes per cubic meter.
To produce the same amount of energy as one kilogram of uranium fuel pellets in a nuclear power station, approximately 3,500 kilograms of coal must be burnt. This is due to the higher energy density of uranium compared to coal.
In a fossil fuel power station, the stages typically involve fuel combustion to generate heat, which is used to produce steam. The steam then drives a turbine connected to a generator to produce electricity. The final stage involves transmitting the electricity to the grid for distribution to end users.
The process of combustion combines fuel with oxygen, to produce carbon dioxide and heat. If the fuel is burned in a boiler to produce steam, this heat energy is converted to pressure energy in the steam. The pressure energy is converted to rotating kinetic energy as the steam spins a turbine. Finally the rotating kinetic energy is converted to electric energy in the generator.
Steam is generated by heat from the combution of fuel in a furnace or by waste heat from a process. The heat is transferred to water in the boiler shell, which then evaporates to produce steam under pressure.
You can use the bio gas to fuel either a steam cycle generator or a gas turbine.
Fossil fuel (coal) is burnt in furnaces. The heat produced turns water into steam. The steam is fed through steam turbine generators. It is these generators that produce electricity. This electricity is fed onto the national grid.
Steam is typically considered a form of thermal energy, as it is a vaporized form of water with high heat energy. However, if steam is used to power a turbine or generator to produce electricity, it can be considered a form of mechanical energy that is derived from the chemical energy stored in the fuel that heated the water to produce the steam.
The same way fossil fuel plants do, making steam and turning turbines which turn generators/alternators.Nuclear fission generates heat which flashes water to steam which spins turbines that spin generators that produce electricity.