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Turbo generator

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The construction of a Ganz water Turbo Generator in Budapest in 1886
A Siemens-brand power plant turbogenerator
RP4 turbogenerator, a 500W/24V generator for a steam locomotive; dynamo on the left, turbine on the right
Engraving of Parson's first 1 megawatt "turbogenerator" alternator driven by a steam turbine. It was installed at a plant in Elberfeld, Germany.

A turbo generator is the combination of a turbine directly connected to an electric generator for the generation of electric power. Large steam powered turbo generators provide the majority of the world's electricity and are also used by steam powered turbo-electric ships.[1]

Smaller turbo-generators with gas turbines are often used as auxiliary power units. For base loads diesel generators are usually preferred, since they offer better fuel efficiency, but on the other hand diesel generators have a lower power density and hence, require more space.

The efficiency of larger gas turbine plants can be enhanced by using a combined cycle, where the hot exhaust gases are used to generate steam which drives another turbo generator.

History

The first turbo-generators were water turbines which propelled electric generators. The first Hungarian water turbine was designed by the engineers of the Ganz Works in 1866, the industrial-scale production with dynamo generators started in 1883.[2]

The turbo generator was invented by a Hungarian engineer Ottó Bláthy in 1903.[3] Unfortunately for Bláthy, Parsons had already demonstrated a DC steam powered turbogenerator using a dynamo in 1887,[4] and by 1901 had supplied the first large industrial AC turbogenerator of megawatt power to a plant in Eberfeld, Germany.[5]

Turbo generators were also used on steam locomotives as a power source for coach lighting and heating systems.

Hydrogen-cooled turbo generator

Based on the air-cooled turbo generator, gaseous hydrogen went into service as a coolant in the rotor and sometimes the stator of hydrogen-cooled turbo generators in 1937 at Dayton, Ohio, in October by the Dayton Power & Light Co[6] allowing an increase in specific utilization and a 99.0% efficiency, because of the high thermal conductivity, high specific heat and low density of hydrogen gas this is the most common type in its field today. The hydrogen can be manufactured on-site by electrolysis.

The generator is hermetically sealed to prevent escape of the hydrogen gas. The absence of oxygen in the atmosphere within significantly reduces the damage of the windings insulation by eventual corona discharges. The hydrogen gas is circulated within the rotor enclosure, and cooled by a gas-to-water heat exchanger.[7]

See also

References

  1. ^ The turbogenerator – A continuous engineering challenge
  2. ^ http://www.sze.hu/~mgergo/EnergiatudatosEpulettervezes/2013_1_feladat/ErosErika/V%EDzenergia%20hasznos%EDt%E1s%20szigetk%F6zi%20szemmel%20EL%D5AD%C1SANYAG.pdf
  3. ^ Bláthy, Ottó Titusz
  4. ^ Smil, Vaclav (2005). Creating the Twentieth Century. Oxford University Press. pp. 63–64. ISBN 0195168747.
  5. ^ Scientific American. 27 April 1901. {{cite journal}}: Missing or empty |title= (help)
  6. ^ A chronological history of electrical development from 600 B.C.
  7. ^ http://www.gepower.com/prod_serv/products/generators/en/hydrogen_cool.htm