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Detailed description of the GE5's high-performance, 11-stage axial flow compressor design.
Explanation of the GE5's compact, high-efficiency two/three-stage turbine design and cooling.
Information on the GE5's annular combustor architecture for high efficiency and low emissions.
Overview of the GE5 gas turbine packages, emphasizing standardization and modularity.
Key aspects of GE5 maintenance, including borescope inspections and overhaul intervals.
Description of the GE10's 11-stage axial flow compressor, derived from aero-derivative technology.
Details on the GE10's single-shaft and two-shaft turbine configurations for generator and mechanical drive.
Specifics on the GE10-2 two-shaft version for mechanical drive applications.
Information on the GE10's single, slot-cooled combustion chamber and fuel flexibility.
Details on the GE10's integrated lubrication system and starting mechanisms.
Description of the GE10 package for power generation, focusing on dimensions and noise.
Applications for the 7EA gas turbine, including mechanical drive and power generation.
Description of the MS6001B, a single-shaft, heavy-duty gas turbine with a 17-stage compressor.
Details on the MS7001EA, a reliable, mid-sized turbine designed for 60 Hz applications.
Information on the MS9001E, a single-shaft turbine for the 50 Hz market, designed for generator drive.
Specifications for the PGT16, including compressor, combustion, turbine, package, and emissions.
Specifications for the PGT25, covering compressor, combustion, turbine, package, and emissions.
Specifications for the PGT25+, highlighting high thermal efficiency and reliability.
Specifications for the LM6000, emphasizing fuel efficiency and power output.
Detailed explanation of the axial compressor construction, materials, and performance characteristics.
Description of the first stage nozzle assembly, its design, and air-cooling features for enhanced life.
Explanation of bucket design and wheel protection features to manage temperature and stresses.
Discussion of GE Energy's design solutions for maximizing gas turbine operability and performance.
Explanation of the Corrected Parameter Control (CPC) logic for optimizing mechanical drive unit performance.
Specific applications for gas turbines in gas storage and water injection systems.
Features of GE Energy gas turbines suitable for pipeline compressor applications.
Typical applications of gas turbine-driven compressors in downstream processing.
Details on the Florence Learning Center facilities for gas turbine training.
Overview of training solutions offered, including tailored programs and languages.
List of equipment covered by GE Energy's training programs.
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