摘要
作为船舶综合电力系统运行的核心控制部分,能量管理系统通过监控发电设备、配电设备、用电负载的状态,合理调配能量分布以实现全船电力能源的高效利用。大型船舶使命任务多样化,发电设备、配电设备及用电负载相互之间的耦合性强。针对船舶综合电力系统复杂性的特点,提出了一种综合考虑设备生命周期、负载类型、潮流分布、工况切换策略等因素的可行性指标,用以定量判定一种实际运行工况的是否适宜运行,为以最优化为目标的能量特性控制算法提供了技术基础及理论支撑。
Power management system (PMS), the control core of the operation of marine integral power system (IPS), rationally allocates energy distribution for the purpose of realizing efficient utilization of the whole ship power through monitoring the power generation equipment, distribution equipment and electricity load condition. The mission of large-scale marine diversifies, while there is strong coupling among the power generation equipment, distribution equipment and electricity load. This paper, based on the complexity of marine integral power system, puts forwards feasible indicators that take into account the factors such as the equipment's life cycle, load type, load flow distribution and operating mode's switch strategy. The feasible indicators aim to quantitatively judge whether certain actual operational condition is suited to run, which provides technological base and theoretic support for the control algorithm of energy property that takes optimization as the goal.
出处
《机电设备》
2017年第1期1-5,共5页
Mechanical and Electrical Equipment
关键词
船舶电力系统
能量管理
能量特性
marine power system
power management
energy property