محاضرو موسومة بـ: Ideal Cycle
Air-Standard Diesel Cycle-3
The air-standard Diesel cycle is an ideal cycle that assumes heat addition occurs during a constant-pressure process that starts with the piston at top dead center.
Air-Standard Diesel Cycle-2
The air-standard Diesel cycle is an ideal cycle that assumes heat addition occurs during a constant-pressure process that starts with the piston at top dead center.
Air-Standard Otto Cycle-1
The internal combustion (IC) engine is usually applied to reciprocating engines of the type commonly used in automobiles, trucks, and buses. Two principal types of reciprocating internal combustion engines are the spark-ignition engine (Actual Otto engine) and the compression-ignition engine (Actual Diesel engine). The air standard Otto cycle is an ideal cycle that assumes heat addition occurs instantaneously while the piston is at top dead center.
Gas Power Systems: Air-Standard Brayton Cycle 2
This topic deals with gas turbine power plants. Gas turbines tend to be lighter and more compact than the vapor power plants studied previously. The favorable power-output-to-weight ratio of gas turbines makes them well suited for transportation applications (aircraft propulsion, marine power plants, and so on).
Gas Power Systems: Air-Standard Brayton Cycle
This topic deals with gas turbine power plants. Gas turbines tend to be lighter and more compact than the vapor power plants studied previously. The favorable power-output-to-weight ratio of gas turbines makes them well suited for transportation applications (aircraft propulsion, marine power plants, and so on).
The Vapor-Compression Refrigeration Cycle - 2
Vapor-compression refrigeration systems are the most common refrigeration systems in use today. The object of this section is to introduce some important features of systems of this type and to illustrate how they are modeled thermodynamically.
The Vapor-Compression Refrigeration Cycle - 1
Vapor-compression refrigeration systems are the most common refrigeration systems in use today. The object of this section is to introduce some important features of systems of this type and to illustrate how they are modeled thermodynamically. Ideal Cycle Refrigeration Heat Pump system The Vapor-Compression Refrigeration cycle - 1 11