How much steam is required to produce 5 MW power in steam turbine?In fully condensing turbine we will need 20 TPH steam required to generate for 5MW
The steam required for steam tracing is calculated on the basis of the amount of heat transfer that is required or the temperature that you want to maintain with the help of steam. It also depends on the pipe material through which the steam is passing,the condition of the steam that whether it is saturated or superheated etc. Overall heat transfer cofficient is calculated considering all the factors like fouling or scaling,inside and outside dia. , surface area etc. After calculating the amount of heat to be transferred, the requirement of rate of steam is calculated. Generally, Low pressure steam is used as it has got more latent/Sensible heat as compared to MP or Superheated steam.
3.5 ton steam
This steam cleaner does not use any electrical power.
Approximately 30,000 gallons of water is required to condense one ton of steam.
The amount of MMbtu required to produce one ton of steam can vary depending on the efficiency of the boiler and the pressure of the steam. On average, it takes about 10-12 MMbtu to produce one ton of steam at standard conditions.
It would take 1 ton of water to create 1 ton of steam.
It depends on how long you are prepared to wait!
It equals one kilpod.
The measurement of how much heat energy is required for a substance to melt is called the heat of fusion. It is the amount of energy required to change a substance from a solid to a liquid at its melting point.
To change ice at -64.0°C to steam at 52°C, you need to consider three separate phase changes: heating the ice from -64.0°C to 0°C, melting the ice at 0°C to water at 0°C, heating the water from 0°C to 100°C, vaporizing the water at 100°C to steam at 100°C, and then heating the steam from 100°C to 52°C. You would use the specific heat capacities and heat of fusion and vaporization for each of these phase changes to calculate the total heat required.
Water to steam. Think about the bonds. In melting, you are breaking some bonds, but on the whole you still have one group of molecules. In vaporizing, the molecules must break away from the group completely. It is much harder to accomplish this than it is to melt.