nucleus said:Humid air is lighter than dry air and has the same effect as being at a higher altitude, in that it reduces P1 pressure; therefore, the compressor has a higher-pressure ratio (P2/P1). An increase in pressure ratio increases the COT.
As for the question of Gamma changing-- In a perfect gas it is assumed to have a constant specific heat, the specific heat ratio k=Cp/Cv is constant, therefore, it does not change.
The amount of water vapor air can hold depends on the temperature, with the higher the temperature, the more water vapor it can hold. The effect can be determined by Dalton's law of partial pressures or by using online calculators.
http://en.wikipedia.org/wiki/Density_of_air
http://en.wikipedia.org/wiki/Partial_pressure
Isentropic compression refers to the process of compressing a gas or liquid without any heat transfer, resulting in an increase in temperature and pressure.
Isentropic compression is important in many industrial and scientific processes, such as gas turbine engines, refrigeration systems, and air compressors. It allows for efficient compression and expansion of gases without significant energy losses.
Humidity, or the amount of water vapor in the air, can affect the performance of isentropic compression. Higher humidity levels can decrease the efficiency of compression by increasing the moisture content of the gas, which requires more energy to compress.
Specific humidity is the ratio of the mass of water vapor to the total mass of air and is a more accurate measure of humidity compared to relative humidity. As specific humidity increases, so does the amount of water vapor in the air, which can affect the performance of isentropic compression.
Isentropic compression and humidity play important roles in various industries, such as power generation, HVAC systems, and chemical processing. They are also crucial factors in weather patterns and forecasting, as well as in understanding the Earth's climate and water cycle.