Als turboelektrischer Antrieb wird ein Antriebssystem bezeichnet, bei dem ein Elektroantrieb direkt von einem Turbogeneratorsatz, also einem Generator mit Turbinenantrieb (Gas- oder Dampfturbine), gespeist wird. (de)
A turbo-electric transmission uses electric generators to convert the mechanical energy of a turbine (steam or gas) into electric energy, which then powers electric motors and converts back into mechanical energy that power the driveshafts. Turbo-electric drives are used in some rail locomotives (gas turbines, e.g. with the first TGV) and ships (steam and more recently gas turbines). An advantage of turbo-electric transmission is that it allows the adaptation of high-speed turbines to slow turning propellers or wheels without a heavy and complex gearbox. It has the advantage of being able to provide electricity for the ship or train's other electrical systems, such as lighting, computers, radar, and communications equipment. Other advantages for ships include greater watertight subdivision, quieter operations, and safety (via instant thrust reversal by changing engine direct current polarity) for submarines. (en)
터빈 전기 전송시스템은 발전기에 연결된 , 전력 를 만드는 전기를 포함한다. 어떤 클러치도 필요없다. 터빈 전기동차는 모두 (드물게)와 군함을 구동하는데 사용된다. 1930년대와 1940년대에 실험 기관차의 소수 원동기로 가스 터빈을 사용했다. (ko)
Als turboelektrischer Antrieb wird ein Antriebssystem bezeichnet, bei dem ein Elektroantrieb direkt von einem Turbogeneratorsatz, also einem Generator mit Turbinenantrieb (Gas- oder Dampfturbine), gespeist wird. (de)
터빈 전기 전송시스템은 발전기에 연결된 , 전력 를 만드는 전기를 포함한다. 어떤 클러치도 필요없다. 터빈 전기동차는 모두 (드물게)와 군함을 구동하는데 사용된다. 1930년대와 1940년대에 실험 기관차의 소수 원동기로 가스 터빈을 사용했다. (ko)
A turbo-electric transmission uses electric generators to convert the mechanical energy of a turbine (steam or gas) into electric energy, which then powers electric motors and converts back into mechanical energy that power the driveshafts. (en)