In this document, we have covered the Gas Turbine Power Plant. A gas turbine power plant is also called a combustion turbine power plant. The gas turbine is a type of continuous combustion, an internal combustion engine.
We have covered the
components, Applications Advantages and Disadvantages of Gas Turbine Power Plant.
This article was first written in Me Mechanical website https://mechanicalengineering.blog/gas-turbine-power-plant/
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Gas Turbine Power Plant
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ME Mechanical Team March 20, 2022
Gas Turbine Power Plant: Applications, Advantages
and Disadvantages
mechanicalengineering.blog/gas-turbine-power-plant/
The gas turbine power plant is also called a combustion turbine power plant. The gas
turbine is a type of continuous combustion, an internal combustion engine.
There are three main components in a gas turbine, they are
1. An upstream rotating gas compressor;
2. A downstream turbine on the same shaft and
3. A combustion chamber or area is called a combustor.
Applications:
1. Gas turbine plants are used as standby plants for hydroelectric power plants.
2. Gas turbine power plants may be used as peak loads and standby plants for
smaller power units.
3. Gas turbines are used in jet aircraft and ships. Pulverized fuel-fired plants are used
in locomotives.
Metrovick Gastric’s first marine gas-turbine
Advantages:
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The economics of power generation by gas turbines prove more attractive due to low
capital cost and high reliability and flexibility in operation. Quick starting and capability of
using a wide variety of fuels from natural gas to residual oil or powdered coal are other
outstanding features of gas turbine power plants. Significant progress has been made in
three directions: increase in unit capacities of gas turbine units (50—100 mW), increase
their efficiency and drop in capital cost. The primary application of gas turbine plants is to
supply peak load. However, gas turbine plants nowadays are universally used as peak
load, base lead, and standby plants.
1. It is smaller in size and weight than an equivalent steam power plant. For smaller
capacities, the size of the gas turbine power plant is appreciably more significant
than a high-speed diesel engine plant. Still, it is smaller in size than a comparable
diesel engine plant for larger capacities. If size and weight are the primary
consideration, such as in ships, aircraft engines and locomotives, gas turbines are
more suitable.
2. The gas turbine plant’s initial cost and operating cost are lower than an equivalent
steam power plant.
3. The plant requires less water as compared to a condensing steam power plant.
4. The plant can be started quickly and can be put on load in a short time.
5. There are no standby losses in the gas turbine power plant, whereas, in a steam
power plant, these losses occur because the boiler is kept in operation even when
the turbine is not supplying any load.
6. The maintenance cost of the gas turbine power plant is low and easier to maintain.
7. The lubrication of the plant is easy. In a gas turbine plant, lubrication is needed
mainly in compressor, turbine main bearing and bearings of auxiliary equipment.
8. The plant does not require massive foundations and buildings.
9. The plant’s significant simplification over a steam plant is due to the absence of
boilers with their feed water evaporator and condensing system.
Disadvantages:
1. A significant part of the work developed by the turbine is used to derive the
compressor. Therefore, the network output of the plant is low.
2. The temperature of the products of combustion becomes too high, so service
conditions become complicated even at moderate pressures.