Is a Vertical Increase in Pressure Possible in the Pump Stage of a Steam Engine?

In summary, the textbook shows a PV diagram for a steam engine where the pump stage has no change in volume and only a vertical increase in pressure. This can be achieved by adding heat to the system while maintaining a fixed volume and using valves to move the piston. The pump stage refers to the process of pressurizing the water, which can be considered as a steep slope on the PV diagram.
  • #1
pivoxa15
2,255
1
My textbook shows a PV diagram for a steam engine with the pump stage having no change in volume and with only a vertical increase in pressure. How can that be done. I can only imagine pumping a substance by pushing it inwards hence increasing its pressure but also reducing its volume. How can there be no reduction in volume?
 
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  • #2
What do you mean by the 'pump' stage? I've never heard that term in relation to a steam engine.
 
  • #3
Well, you can do this by putting heat into the system while maintaining a fixed volume. It would help to have more text and a picture though. What do you mean by a "steam engine"? Please provide more information.
 
  • #4
Look at this link and re-state your question?

http://travel.howstuffworks.com/steam1.htm

The boiler tank contains very hot water and steam under high pressure. The average pressure stays about the same, depending on the amount of heat (power input) applied to the tank, and the speed and load on the engine (power output). The amount of water decreases over time requiring the engine to be refilled. Through valves, the high pressure is used to move a piston (both directions usually), and is then released. The loss of steam is replaced by the super heated water boiling and replacing the steam released on the exhaust side of the piston.
 
  • #5
Assuming a condensing steam cycle:
In the liquid phase, the compressibility is very small.
Therefore the slope is very steep, but not really a vertical.
Practically, it doesn't change much to consider it as vertical: the work to pressurize the water is negligible.
 

1. What is the purpose of the pump stage in a steam engine?

The pump stage in a steam engine is responsible for pumping water into the boiler, where it is heated and converted into steam. This steam is then used to power the engine.

2. How does the pump stage work in a steam engine?

The pump stage typically consists of a piston and cylinder mechanism that is powered by the engine itself. As the engine moves, it creates a vacuum in the cylinder which draws water from a reservoir into the boiler.

3. What happens if the pump stage fails in a steam engine?

If the pump stage fails, the boiler will not have enough water to create steam. This can result in a loss of power and potentially cause damage to the engine. It is important to regularly maintain and check the pump stage to prevent failures.

4. How does the pump stage impact the efficiency of a steam engine?

The pump stage plays a crucial role in the efficiency of a steam engine. If the pump is not working properly, the boiler may not have enough water to create steam, leading to a decrease in power and efficiency. A well-functioning pump stage ensures that the engine can produce maximum power with minimal waste.

5. Can the pump stage be upgraded or modified in a steam engine?

Yes, the pump stage can be upgraded or modified to improve its efficiency or adapt it for different purposes. For example, a more advanced pump stage may use a different type of mechanism to improve the flow of water into the boiler. However, any modifications should be carefully planned and executed to avoid damaging the engine.

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