C205 REACTION TYPE COMPACT HP/IP COMBINED TURBINE AND LP TURBINE WITH 48-INCH/40-INCH STEEL BLADES
スポンサーリンク
概要
- 論文の詳細を見る
Modern steam turbines of Mitsubishi Heavy Industries, Ltd. (MHI) are based on advanced technologies, including advanced steam path design through fully 3-D viscous computational fluid dynamics (CFD) analysis, high efficiency seals, steam cooled casings, enhanced LP sections that include the world longest LP last blades such as 3600rpm 40-inch/3000rpm 48-inch steel blade, hetero material welded rotor, and state-of-the -art material technologies for high temperature up to 630℃. These advanced technologies result in more compact, cost-effective, opposed-flow HP/IP combined cylinder design that ensures high reliability, higher efficiency and ease of maintenance. This paper illustrates the features and operation experience of large steam turbines with MHI's new advanced technologies through two specific examples : a typical 240MW combined-cycle steam turbine recently developed for the American market, and a 700MW 3-cylinder steam turbine with 3600rpm 40-inch steel blades. HP/IP 1-cylinder design with 600℃ class high temperature steam conditions for 1000MW class turbine is also discussed.
- 一般社団法人日本機械学会の論文
著者
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Nakano Takashi
Power Systems Headquarters Mitsubishi Heavy Industries Ltd.
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Tanaka Keizo
Takasago Machinery Works Mitsubishi Heavy Industries Ltd.
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Ohyama Hiroharu
Takasago Machinery Works, Mitsubishi Heavy Industries, Ltd.
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Miyawaki Toshihiro
Takasago Research & Development Center, Mitsubishi Heavy Industries, Ltd.
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Miyawaki Toshihiro
Takasago Research & Development Center Mitsubishi Heavy Industries Ltd.
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Ohyama Hiroharu
Takasago Machinery Works Mitsubishi Heavy Industries Ltd.
関連論文
- C205 REACTION TYPE COMPACT HP/IP COMBINED TURBINE AND LP TURBINE WITH 48-INCH/40-INCH STEEL BLADES
- C108 EXCELLENT EXPERIENCE OF THE 1050MW STEAM TURBINE WITH HIGHEST TEMPERATURES 600/610℃ AND FURTHER APPLICATION TECHNOLOGY UP TO 630℃
- Development and Verification of 3000 Rpm 48 Inch Integral Shroud Blade for Steam Turbine(International Conferences on Power and Energy)
- Development of New Advaneced Low Pressure End Blades for High Efficiency Steam Turbine(Special Issue on International Conference on Power and Energy System)
- Analysis of Fretting Fatigue Strength of Integral Shroud Blade for Steam Turbine
- Study on Vibration Characteristics of Mistuned Bladed Disk(Vibration Response Analysis by Reduced Model FMM)
- Analysis and Measurement of Damping Characteristics of Integral Shroud Blade for Steam Turbine
- Damping Characteristics of Bladed Disk with Continuous Ring Type Structure (Effects of Friction Damping on Self-Excited Vibration):(Effects of Friction Damping on Self-Excited Vibration)