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Large steam turbine generators
Journal of the A.I.E.E., 1924The authors discuss the manufacture of large steam turbine-driven generators touching on what is considered the best practises of the present day. A description of a 62,500-kv-a. 60-cycle generator is included together with test data. The fact is brought out that even on the largest generators yet built, moderate temperatures may be expected.
E. H. Freiburghouse +2 more
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Journal of the Institution of Electrical Engineers, 1923
The paper is a review of the present position of the subject of steam turbine blading. Section (1) describes the causes and effects of corrosion and erosion. The most important materials in use are enumerated and compared. Section (2) deals with the form of the blade passage in impulse and reaction machines, and with the energy losses occurring in the ...
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The paper is a review of the present position of the subject of steam turbine blading. Section (1) describes the causes and effects of corrosion and erosion. The most important materials in use are enumerated and compared. Section (2) deals with the form of the blade passage in impulse and reaction machines, and with the energy losses occurring in the ...
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1981
The modern steam turbines rotate at 1800 or 3600 rpm and produce a “shaft output” of 800–300 MW. Less than 50 years ago, a machine with the same rpm was rated at less than 200 MW. The underlying reason for the trend to large size is the economy of scale, i.e., the lower capital cost in dollars per kilowatt as size increases.
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The modern steam turbines rotate at 1800 or 3600 rpm and produce a “shaft output” of 800–300 MW. Less than 50 years ago, a machine with the same rpm was rated at less than 200 MW. The underlying reason for the trend to large size is the economy of scale, i.e., the lower capital cost in dollars per kilowatt as size increases.
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, 2021 Testing steam turbines and steam turbogenerators
Proceedings of the American Institute of Electrical Engineers, 1910E. D. Dickinson, L. T. Robinson
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Measurements on a wind turbine wake: 3D effects and bluff body vortex shedding
Wind Energy, 2006P H Alfredsson
exaly
Development of the Marine Steam Turbine
Scientific American, 1906C. A. Parsons, R. J. Walker.
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Performance of OWC wave energy converters: influence of turbine damping and tidal variability
International Journal of Energy Research, 2015Bruno Pereiras +2 more
exaly