self sustaining speed is output of a turbine= input into compressor
gas turbine generator
By increasing the flow rate of the natural gas being used as the fuel.
the types of statore are compressor, gas turbine, turboprop, and jet engine
This Tesla CD Turbine is based on the Tesla turbine, which was invented by Nikola Tesla in the early 1900's. Tesla's pumps and motors were unique in that they only used discs, and took advantage of the boundary layer effect. His smallest designs were over 100 horsepower. It is referred to as a bladeless turbine because it uses the boundary layer effect and not a fluid impinging upon the blades as in a conventional turbine. The Tesla turbine is also known as the boundary layer turbine, cohesion-type turbine, and Prandtl layer turbine (after Ludwig Prandtl). One of Tesla's desire for implementation of this turbine was for geothermal power, which was described in "Our Future Motive Power". Tesla wrote 'This turbine is an efficient self-starting prime mover which may be operated as a steam or mixed fluid turbine at will, without changes in construction and is on this account very convenient. Minor departures from the turbine, as may be dictated by the circumstances in each case, will obviously suggest themselves but if it is carried out on these general lines it will be found highly profitable to the owners of the steam plant while permitting the use of their old installation. However, the best economic results in the development of power from steam by the Tesla turbine will be obtained in plants especially adapted for the purpose.
This all depends on firstly how the turbine is built, and how large the turbine is. Please add more detail.
Self-sustaining speed in a gas turbine refers to the operational condition where the turbine can generate enough thrust and power to maintain its own rotational speed without external assistance. At this point, the energy produced from the combustion process matches the energy losses due to friction and other factors, enabling the turbine to operate efficiently. Achieving self-sustaining speed is critical for the turbine to transition from startup to stable operation.
It sends hot gases from the combustion chamber to the 1st stage turbine blades at the correct angle and speed
warm up speed of turbine,andthe minimum speed of turbine before loading is called idle speed.
gas turbine generator
Basically, a gas turbine is powered by gas under pressure, The gas is pressurized by burning some type of fuel such as kerosene, jet fuel, or propane. That heat causes air expansion, and the subsequent inflow of air makes the turbine spin. A gas turbine consists of three main parts; a combustion chamber, a turbine and a compressor. Air and fuel are mixed in the combustion chamber where it is ignited and increases in speed and power. This power is directed over the turbine blades which spin the turbine and power the compressor. It's a pretty simple process: heated fuel causes pressure and air expansion. The expanded air causes a turbine to spin. That is how gas turbines like jet engines work.
A gas turbine is one type of power plant. It produces power by burning gas to turn the turbine.
The device which control the speed of Turbine is Governor. The Governing system sense the speed of shaft & regulate the Fuel/ Motive fluid flow to the Turbine to maintain the set shaft speed.
The runaway speed of a water turbine is its speed at full flow, and no shaft load. The turbine will be designed to survive the mechanical forces of this speed. The manufacturer will supply the runaway speed rating.
Cranking in a gas turbine refers to the process of initiating the engine's startup sequence by rotating the turbine's shafts using an external power source, typically an electric motor or a dedicated starting system. This action allows the gas turbine to reach the required speed for fuel ignition and combustion. Cranking is essential for overcoming inertia and ensuring smooth acceleration to operational speeds before the turbine takes over and self-sustains its operation.
SPEED OF TURBINE IS DEPEND ON THE WATER PRESSUR(7BAR)
Decreasing the blade length will increase the rotation speed, and thus the turbine speed ( for constant wind speed ).
The speed ratio of turbines refers to the ratio of the rotational speed of the turbine rotor to the rotational speed of the turbine shaft. This ratio is important for defining the mechanical performance and efficiency of the turbine.