
Industrial Gas Turbine blade
OEM & ODM Services: Available
Weight: Custom
Tolerance:0.004mm
Smooth surface roughness:Ra0.6-3.2
An industrial gas turbine (IGT) is a type of combustion engine that converts energy from fuel into mechanical power by igniting and burning a mixture of air and fuel. Unlike jet engines used in aviation, which focus primarily on thrust, industrial gas turbines are designed to produce shaft power that can be used for various industrial applications. Here's an overview of industrial gas turbines and their key features:
Key Components of Industrial Gas Turbines:
Compressor: The compressor section draws in ambient air and compresses it to higher pressure levels before it enters the combustion chamber.
Combustion Chamber: In the combustion chamber, a mixture of fuel (usually natural gas or diesel) and compressed air is ignited. The resulting high-temperature and high-pressure gases expand rapidly.
Turbine: The expanding gases flow through the turbine section, which is connected to the compressor and various other components. The turbine extracts energy from the gases' expansion and converts it into mechanical shaft power.
Power Turbine (if applicable): Some industrial gas turbines are designed with additional power turbine stages. These turbines may drive external machinery, such as electric generators or compressors, to provide more specific types of power output.
Exhaust System: After passing through the turbine stages, the exhaust gases are expelled through the exhaust system. The heat energy in the exhaust gases can be harnessed for various purposes, such as cogeneration or waste heat recovery.
Applications of Industrial Gas Turbines:
Industrial gas turbines find applications in various industries, including:
Electric Power Generation: Gas turbines are commonly used in power plants to generate electricity. They can be used as standalone units or in combined cycle configurations with steam turbines for improved efficiency.
Oil and Gas Industry: Gas turbines drive compressors for gas pipelines, provide power for offshore platforms, and drive pumps for oil extraction and refining.
Industrial Processes: Gas turbines are used to power various industrial processes, such as chemical manufacturing, food processing, and paper production.
Cogeneration and Combined Heat and Power (CHP): Gas turbines can be integrated into systems that simultaneously generate electricity and useful heat for heating applications in industrial and commercial buildings.
Aerospace Industry: While gas turbines for aviation are designed primarily for propulsion, some aerospace applications, such as auxiliary power units (APUs), use similar technology for on-board power generation.
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China |
U.S. |
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TAD |
Titanium Iodide |
Grade1 |
No. 1 Pure Titanium |
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TA1 |
Industrial Pure Titanium |
Grade2 |
No.2 Pure Titanium |
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TA2 |
Industrial Pure Titanium |
Grade3 |
No. 3 Pure Titanium |
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TA3 |
Industrial Pure Titanium |
Grade4 |
No. 4 Pure Titanium |
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TA4 |
Ti-3Al |
Grade5 |
Ti-6AI-4V |
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TA5 |
Ti-4A1-0.005B |
Grade6 |
Ti-5AI-2.5V |
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TA6 |
Ti-5AI |
Grade7 |
Ti-0.2Pd |
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TA7 |
Ti-5AI-2.5Sn |
Grade9 |
Ti-3A1-2.5V |
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TA8 |
Ti-5A1-2.5Sn-3Cu-1.5Zr |
Grade10 |
Ti-11.5Mo-4.5Sn- 6Zr |
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TC1 |
Ti-2AI-1.5Mn |
Grade1 |
Ti-0.2Pd |
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TC2 |
Ti-3A1-1.5Mn |
Grade2 |
Ti-0.3Mo-0.75Ni |
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TC3 |
Ti-4A1-4V |
A-1 |
Ti-5A1-2.5Sn |
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TC4 |
Ti-6A1-4V |
A-3 |
Ti-6A1-2Nb-1Ta |
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TC6 |
Ti-6Al-1.5Cr-2.5Mo-0.5Fe- 0.3Si |
A-4 |
Ti-8A-1Mo-1V |
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TC7 |
Ti-6A1-0.6Cr-0.4Fe-0.4Si- 0.01B |
AB-1 |
Ti-6A1-4V |
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TC9 |
Ti-6.5A1-3.5Mo-2.5Sn-0.3Si |
AB-3 |
Ti6AI-6V-2Sn |
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TC10 |
Ti-6A1-6V-2Sn-0.5Cu-0.5Fe |
AB-4 |
Ti-6A-2Sn-4Zr-2Mo |
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TC11 |
Ti-6A1-3.5Mo-1.5Zr-0.3Si |
AB-5 |
Ti-3AI-2.5V |
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TB2 |
Ti-5Mo-5V-3Cr-3Al |
B-1 |
Ti-3A1-13V-11Cr |
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