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He also developed the mercury vapour turbine system for electric power production.
A mercury vapour turbine is a form of heat engine that uses mercury to drive the thermal cycle.
A mercury vapour turbine has been used in conjunction with a steam turbine for generating electricity.
See, for example, mercury vapour turbine.
Metallurgical developments have allowed steam-only plants to increase in efficiency over time, making the mercury vapour turbine obsolete.
The Electrical Year Book, 1937, contained the following description of a mercury vapour turbine operating in commercial use:
Mercury vapour turbines used mercury as the working fluid, to improve the efficiency of fossil-fuelled generating stations.
Historically, other working fluids such as mercury have been experimentally used in a mercury vapour turbine power plant, since these can attain higher temperatures than water at lower working pressures.
He also developed the mercury vapour turbine system for electric power production.
Mercury is the working fluid in the mercury vapor turbine.
Experimental mercury vapor turbines were installed to increase the efficiency of fossil-fuel electrical power plants.
A mercury vapour turbine is a form of heat engine that uses mercury to drive the thermal cycle.
A mercury vapour turbine has been used in conjunction with a steam turbine for generating electricity.
See, for example, mercury vapour turbine.
Metallurgical developments have allowed steam-only plants to increase in efficiency over time, making the mercury vapour turbine obsolete.
The Electrical Year Book, 1937, contained the following description of a mercury vapour turbine operating in commercial use:
Mercury vapour turbines used mercury as the working fluid, to improve the efficiency of fossil-fuelled generating stations.
Historically, other working fluids such as mercury have been experimentally used in a mercury vapour turbine power plant, since these can attain higher temperatures than water at lower working pressures.
Other historically successful combined cycles have used hot cycles with mercury vapor turbines, magnetohydrodynamic generators or molten carbonate fuel cells, with steam plants for the low temperature "bottoming" cycle.
