船舶电力系统的应急发电机组仿真与优化设计
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摘要
近年来,现代船舶行业发展速度明显加快,高科技性逐渐突显出来,船舶的大型化特征也愈加显著。集中表现在船舶电力系统与电站等多个方面,全新的技术、设备与观念逐渐形成。特别是电力设备控制、管理以及监视作用逐渐突显出来。对于船舶电力系统要不断提高其稳定性,充分发挥应急电力系统的作用。本文对船舶电力系统应急发电机组加以开发与研究,并通过仿真方式,采取必要的优化措施,保证了船舶电力系统能够在充分满足性能要求的情况下更加稳定可靠。
In recent years, the development speed of the modern shipbuilding industry has obviously accelerated, and the high-tech nature has gradually emerged, and the large-scale characteristics of ships have become more prominent. It is concentrated in many aspects such as ship power system and power station, and new technologies, equipment and concepts are gradually formed. In particular, the control, management, and monitoring functions of power equipment have gradually emerged. For the ship's power system, it is necessary to continuously improve its stability and give full play to the role of the emergency power system. In this paper, the ship power system emergency generator set is developed and researched, and the necessary optimization measures are taken through simulation to ensure that the ship power system can be more stable and reliable under the condition that the performance requirements are fully met.
In recent years, the development speed of the modern shipbuilding industry has obviously accelerated, and the high-tech nature has gradually emerged, and the large-scale characteristics of ships have become more prominent. It is concentrated in many aspects such as ship power system and power station, and new technologies, equipment and concepts are gradually formed. In particular, the control, management, and monitoring functions of power equipment have gradually emerged. For the ship's power system, it is necessary to continuously improve its stability and give full play to the role of the emergency power system. In this paper, the ship power system emergency generator set is developed and researched, and the necessary optimization measures are taken through simulation to ensure that the ship power system can be more stable and reliable under the condition that the performance requirements are fully met.
引文
[1]刘清江,宫国玺,陈红梅,等.船舶应急发电机调试工艺仿真技术设想浅谈[J].船舶标准化与质量, 2017(3):35–37.
[2]徐敏航,梁浩哲,曲婧.船舶柴油发电机组控制模块仿真测试系统的设计与实现[J].上海船舶运输科学研究所学报, 2017,40(1):33–38.
[3]倪敏.趸船小型应急发电机自动控制系统研究[J].机电设备,2016, 33(2):23–26.
[4]付文秀,杨帆,高玮.含轴带发电机的船舶电站协调控制[J].船舶工程, 2016, 38(2):69–73.
[5]陈建杰.论瘫船启动方式以及对配套设施要求分析[J].珠江水运, 2015(15):78–79.
[2]徐敏航,梁浩哲,曲婧.船舶柴油发电机组控制模块仿真测试系统的设计与实现[J].上海船舶运输科学研究所学报, 2017,40(1):33–38.
[3]倪敏.趸船小型应急发电机自动控制系统研究[J].机电设备,2016, 33(2):23–26.
[4]付文秀,杨帆,高玮.含轴带发电机的船舶电站协调控制[J].船舶工程, 2016, 38(2):69–73.
[5]陈建杰.论瘫船启动方式以及对配套设施要求分析[J].珠江水运, 2015(15):78–79.