31:
90:
61:
111:
186:
43:
244:
and alloys like chromium-nickel-steel or chromium-nickel-molybdenum are used. The overhang of windings at the periphery will be secured by steel retaining rings. Heavy non-magnetic metal wedges on top of the slots hold the field windings against centrifugal forces. Hard composition insulating
358:
For the purposes of this article, the term turbo generator means the electrical machine that converts mechanical power from a rotating turbine shaft to electrical power. However, there is inconsistency between sources about the definition of turbo-generator. Some online dictionaries give a
239:
The normal speed of a turbo generator is 1500 or 3000 rpm with four or two poles at 50 Hz (1800 or 3600 rpm with four or two poles at 60 Hz). The rotating parts of a turbo generator are subjected to high mechanical stresses because of the high operation speed. To make the rotor
447:
454:
365:. Other dictionaries and most electrical engineering sources give a definition that is limited to the electrical machine, with the turbine identified as a separate entity. See
397:
664:
359:
definition: "A turbo generator is the combination of a turbine directly connected to an electric generator for the generation of electric power"
256:
The stator of large turbo generators may be built of two or more parts while in smaller turbo-generators it is built up in one complete piece.
423:
613:
575:
537:
619:
581:
543:
382:
279:
265:
495:
681:
253:, are normally used in the slots of rotor. These material can withstand high temperatures and high crushing forces.
696:
389:
202:
65:
306:
of hydrogen gas, this is the most common type in its field today. The hydrogen can be manufactured on-site by
656:
283:
30:
339:
97:
385:
369:
295:
170:
158:
turbo generators provide the majority of the world's electricity and are also used by steam-powered
512:
430:
228:
Turbo generators are used for high shaft rotational speeds, typical of steam and gas turbines. The
210:
89:
381:. Sources from manufacturers also support the definition being limited to the electrical machine.
317:
in the atmosphere within significantly reduces the damage of the windings' insulation by eventual
135:
603:
565:
527:
487:
60:
609:
571:
533:
491:
233:
216:
Turbo generators were also used on steam locomotives as a power source for coach lighting and
93:
366:
318:
229:
119:
645:
New York, N.Y., National
Electrical Manufacturers Association – via Internet Archive.
313:
The generator is hermetically sealed to prevent escape of the hydrogen gas. The absence of
294:, allowing an increase in specific utilization and a 99.0% efficiency. Because of the high
240:
mechanically resistant in large turbo-alternators, the rotor is normally forged from solid
201:
in 1866; industrial-scale production with dynamo generators started only in 1883. Engineer
321:. The hydrogen gas is circulated within the rotor enclosure, and cooled by a gas-to-water
642:
110:
480:
322:
194:
159:
151:
690:
299:
155:
143:
139:
70:
53:
35:
185:
307:
287:
360:
166:
147:
379:
363:
42:
334:
217:
198:
123:
17:
448:"VĂzenergia hasznosĂtás szigetközi szemmel Avagy mi lesz veled, Dunakiliti?"
78:
376:
271:
250:
197:. The first Hungarian water turbine was designed by the engineers of the
174:
303:
275:
82:
48:
314:
291:
206:
213:
turbo generator of megawatt power to a plant in
Eberfeld, Germany.
641:
National
Electrical Manufacturers Association (11 February 2018).
241:
184:
109:
88:
59:
41:
29:
643:"A chronological history of electrical development from 600 B.C."
290:. Hydrogen is used as the coolant in the rotor and sometimes the
608:. McGraw-Hill Education (India) Pvt Limited. 1990. p. 8.4.
570:. McGraw-Hill Education (India) Pvt Limited. 1990. p. 8.3.
532:. McGraw-Hill Education (India) Pvt Limited. 1990. p. 8.1.
372:
246:
102:
193:
The first turbo-generators were electric generators powered by
209:
in 1887, and by 1901 had supplied the first large industrial
657:"Aeroderivative & Heavy-Duty Gas Turbines - GE Power"
424:"The turbogenerator – A continuous engineering challenge"
205:
demonstrated a DC steam-powered turbo generator using a
189:
Turbine construction at the Ganz
Company around 1886
479:
270:Based on the air-cooled turbo generator, gaseous
8:
390:"Turbo generators for thermal power plants"
682:Small Turbo-generator for DG & Hybrids
362:, and there is a similar definition here
118:steam turbo generator set 500W/24V for a
27:Electric generator connected to a turbine
414:
351:
622:from the original on 11 February 2018
605:Basic Electrical Engineering (Be 104)
584:from the original on 11 February 2018
567:Basic Electrical Engineering (Be 104)
546:from the original on 11 February 2018
529:Basic Electrical Engineering (Be 104)
7:
486:. Oxford University Press. pp.
400:from the original on May 31, 2023.
25:
422:Ginet, C.; Joho, R.; Verrier, M.
165:Small turbo-generators driven by
667:from the original on 2010-05-05.
280:hydrogen-cooled turbo generator
274:first went into service as the
266:Hydrogen-cooled turbo generator
260:Hydrogen-cooled turbo generator
482:Creating the Twentieth Century
56:with generator set (rear, red)
1:
236:type usually with two poles.
138:connected to the shaft of a
713:
263:
232:of a turbo generator is a
77:(made 1900 for a plant in
282:in October 1937, at the
284:Dayton Power & Light
203:Charles Algernon Parsons
126:(left) + turbine (right)
190:
150:for the generation of
127:
107:
106:turbo generator (1904)
86:
57:
39:
478:Smil, Vaclav (2005).
340:Thermal power station
224:Construction features
220:for heating systems.
188:
171:auxiliary power units
113:
92:
63:
45:
33:
296:thermal conductivity
38:generator set (1910)
513:Scientific American
191:
169:are often used as
136:electric generator
128:
108:
87:
58:
40:
615:978-1-259-08116-3
577:978-1-259-08116-3
539:978-1-259-08116-3
319:corona discharges
173:(APU, mainly for
16:(Redirected from
704:
697:Turbo generators
669:
668:
653:
647:
646:
638:
632:
631:
629:
627:
600:
594:
593:
591:
589:
562:
556:
555:
553:
551:
524:
518:
517:
508:
502:
501:
485:
475:
469:
468:
466:
465:
459:
453:. Archived from
452:
444:
438:
437:
435:
429:. Archived from
428:
419:
402:
401:
356:
245:materials, like
234:non-salient pole
120:steam locomotive
75:"Turbogenerator"
69:first 1 MW
21:
712:
711:
707:
706:
705:
703:
702:
701:
687:
686:
678:
673:
672:
661:www.gepower.com
655:
654:
650:
640:
639:
635:
625:
623:
616:
602:
601:
597:
587:
585:
578:
564:
563:
559:
549:
547:
540:
526:
525:
521:
516:, 27 April 1901
510:
509:
505:
498:
477:
476:
472:
463:
461:
457:
450:
446:
445:
441:
433:
426:
421:
420:
416:
411:
406:
405:
388:
371:, and from the
357:
353:
348:
331:
268:
262:
226:
183:
132:turbo generator
28:
23:
22:
15:
12:
11:
5:
710:
708:
700:
699:
689:
688:
685:
684:
677:
676:External links
674:
671:
670:
648:
633:
614:
595:
576:
557:
538:
519:
503:
496:
470:
439:
436:on 2010-08-21.
413:
412:
410:
407:
404:
403:
350:
349:
347:
344:
343:
342:
337:
330:
327:
323:heat exchanger
264:Main article:
261:
258:
225:
222:
195:water turbines
182:
179:
160:turbo-electric
152:electric power
26:
24:
18:Turbogenerator
14:
13:
10:
9:
6:
4:
3:
2:
709:
698:
695:
694:
692:
683:
680:
679:
675:
666:
662:
658:
652:
649:
644:
637:
634:
621:
617:
611:
607:
606:
599:
596:
583:
579:
573:
569:
568:
561:
558:
545:
541:
535:
531:
530:
523:
520:
515:
514:
507:
504:
499:
493:
489:
484:
483:
474:
471:
460:on 2013-10-15
456:
449:
443:
440:
432:
425:
418:
415:
408:
399:
395:
391:
386:
383:
380:
377:
374:
370:
367:
364:
361:
355:
352:
345:
341:
338:
336:
333:
332:
328:
326:
324:
320:
316:
311:
309:
305:
301:
300:specific heat
297:
293:
289:
285:
281:
277:
273:
267:
259:
257:
254:
252:
248:
243:
237:
235:
231:
223:
221:
219:
214:
212:
208:
204:
200:
196:
187:
180:
178:
176:
172:
168:
163:
161:
157:
156:steam-powered
153:
149:
145:
144:steam turbine
141:
140:water turbine
137:
133:
125:
121:
117:
112:
105:
104:
99:
95:
91:
84:
80:
76:
72:
71:steam turbine
68:
67:
62:
55:
54:steam turbine
51:
50:
44:
37:
36:steam turbine
32:
19:
660:
651:
636:
624:. Retrieved
604:
598:
586:. Retrieved
566:
560:
548:. Retrieved
528:
522:
511:
506:
481:
473:
462:. Retrieved
455:the original
442:
431:the original
417:
393:
354:
312:
308:electrolysis
288:Dayton, Ohio
269:
255:
238:
227:
215:
192:
167:gas turbines
164:
131:
129:
115:
101:
74:
64:
52:multi stage
47:
46:500 MW
34:250 kW
218:water pumps
148:gas turbine
94:Ottó Bláthy
497:0195168747
464:2013-10-15
409:References
335:Alternator
199:Ganz Works
124:alternator
79:Elberfeld
691:Category
665:Archived
626:8 August
620:Archived
588:8 August
582:Archived
550:8 August
544:Archived
398:Archived
329:See also
302:and low
272:hydrogen
251:asbestos
175:aircraft
154:. Large
98:armature
394:ANDRITZ
304:density
298:, high
286:Co. in
276:coolant
181:History
162:ships.
96:in the
83:Germany
73:driven
66:Parsons
49:Siemens
612:
574:
536:
494:
387:, and
315:oxygen
292:stator
207:dynamo
134:is an
114:Small
490:–64.
458:(PDF)
451:(PDF)
434:(PDF)
427:(PDF)
346:Notes
278:in a
242:steel
230:rotor
100:of a
628:2017
610:ISBN
590:2017
572:ISBN
552:2017
534:ISBN
492:ISBN
384:and
378:and
373:IEEE
249:and
247:mica
103:Ganz
177:).
146:or
142:or
116:RP4
693::
663:.
659:.
618:.
580:.
542:.
488:63
396:.
392:.
375::
368:,
325:.
310:.
211:AC
130:A
122::
81:,
630:.
592:.
554:.
500:.
467:.
85:)
20:)
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.