摘要船舶电力推进自从 19 世纪开始发展,已经具有很长的历史。1832 年,首只由蓄 电池,直流电动机驱动的电力推动船实验成功,代表着电力推动系统进入了船舶领域。 电子电力器件及交流器,大功率交流电机变频调速技术,电力传动控制技术的不断进 步发展,推动了船舶电力推进系统的不断创新发展,扩大了应用领域,凸显了广泛的 应用前景。85063
吊舱式电力推进装置通过改变传统的电力推进方式。将交流和同步电动机放置与 水下的吊舱中,扩大了船舱的容量。采用高性能变流调速技术,提高船舶电力推进系 统动态性能,提高了船舶的机动性,可靠性,同时推进功率和运行效率也有了很大的 发展。吊舱式推进系统使船舶的电力推进系统取得了巨大的发展,使得电力推进在各 式游艇,船舶,舰船等都占据了主导地位。
本文主要论述船舶电力推进的基本结构和技术要求,对电力推进方式进行比较分 析,从船舶综合电力系统功能角度,论述发电机,电动机等构建和系统控制。重点论 述船舶推进器,推进电动机的性能,变频器的电路拓扑,讨论了电力推进装置的组成 设计。
通过小型游艇船舶电推动力总成设计的要求,完成对船舶阻力的计算,发电机的 选择,变频器的调制,螺旋桨的强度及设计,完成对电力推进系统的设计过程。
毕业论文关键字:船舶 电力推进 阻力 电机 螺旋桨
Abstract Ship electric propulsion since development began in the 19th century, has a long history。1832, first by the battery, DC motor driving power to promote vessel test success, on behalf of the power to drive the system to enter the field of the ship。 Power electronic devices and communication devices, high power AC motor variable frequency speed control technology, power transmission and control technology continues to progress and development, promote the continuous development and innovation of the ship electric propulsion system, and enlarges the application field, highlighting the broad application prospect。
Podded electric propulsion device by changing the traditional electric propulsion。 Placing the communication and synchronous motor and underwater pod, expanding the cabin capacity。 Using high performance variable speed technology, improve ship electric propulsion system dynamic performance and improve the ship maneuverability, reliability, and promote power and efficiency has been greatly developed。 Podded propulsion system to ship electric propulsion system has made great development, makes the electric propulsion in all kinds of yacht, ship, shipping and occupy the dominant position。
This paper mainly discusses the ship electric propulsion of basic structure and technical requirements of electric propulsion for comparative analysis, control and system construction from the perspective of the function of ship integrated power system, discusses the generator and motor。 Focus on the ship propeller, propulsion motor performance, Frequency converter circuit topology, discusses the electric propulsion device structure design。
Through the design requirements of the small yacht ship electric propulsion, the calculation of the resistance of the ship, the choice of the generator, the modulation of the
frequency converter, the intensity and the design of the propeller, the design process of the electric propulsion system is completed。
Keyword:Ship electric propulsion resistance electric machinery propeller