Steam

Figure 2-6.—Pressure differential in respect to sea level. Figure 2-8.—Interaction of gases in respect to temperature and pressure. Suppose we have a boiler in which steam has been formed. With the steam stop valves still closed, the volume of the steam remains constant while the pressure and the temperature are both increasing. When operating pressure is reached and the steam stop valves are opened, the high pressure of the steam causes the steam to flow to the turbines. The pressure of the steam thus provides the potential for doing work. The actual conversion of thermal energy to work is done in the turbine section. Steam Steam is water to which enough heat has been Figure 2-7.—Pressure differential in respect to temperature. l Charles’s law is also stated—when the volume is held constant, an increase in the temperature of a gas causes a proportional increase in pressure. A decrease in the temperature causes a proportional decrease in pressure, as shown in figure 2-8. Tanks A and B are of the same size and have an equal volume of gas. Tank A has a pressure of 10 psi when heated to 40°F. Tank B has a pressure of 12 psi when heated to 100°F. Unlike the balloons, the steel tanks do not expand to accommodate the changes in tempera- ture and pressure. This shows that changes in temperature are inversely proportional to changes in gas pressure when the volume is held constant. added to convert it from the liquid to the gaseous state. When heat is added to water in an open container, steam forms. However, it quickly mixes with air and cools back to water that is dispersed in the air, making the air more humid. If you add the heat to water in a closed container, the steam builds up pressure. If you add exactly enough heat to convert all the water to steam at the temperature of boiling water, you get saturated steam. SATURATED STEAM is steam saturated with all the heat it can hold at the boiling temperature of water. The boiling temperature of water becomes higher as the pressure over the water becomes higher. Steam hotter than the boiling temperature of water is called SUPERHEATED STEAM. When steam has 250 °F of superheat, the actual temperature is the boiling temperature plus 250 °F. At 600 psi the boiling temperature of water is 489 °F. So if steam at 600 psi has 250°F of superheat, its actual temperature is 739°F. WET STEAM is steam at the boiling temperature that still contains some water particles. DESUPER- HEATED STEAM is steam that has been cooled by being passed through a pipe extending through 2-11