机电工程技术
機電工程技術
궤전공정기술
MACHANICAL & ELECTRICAL ENGINEERING TECHNOLOGY
2014年
6期
74-76
,共3页
气动造浪机%模糊控制%节能
氣動造浪機%模糊控製%節能
기동조랑궤%모호공제%절능
pneumatic wave-maker%fuzzy control%energy saving
针对人工造浪机连续运行时能耗大,驱动电机易过载、温度高等缺点,对其结构进行了改进设计,并将模糊推理技术引入人工造浪机控制系统,建立了模糊控制规则。仿真结果表明,采用了改进结构和模糊控制的造浪机风机转速输出连续稳定,风机运行中负载变化率得到明显改善,达到节能的目的。
針對人工造浪機連續運行時能耗大,驅動電機易過載、溫度高等缺點,對其結構進行瞭改進設計,併將模糊推理技術引入人工造浪機控製繫統,建立瞭模糊控製規則。倣真結果錶明,採用瞭改進結構和模糊控製的造浪機風機轉速輸齣連續穩定,風機運行中負載變化率得到明顯改善,達到節能的目的。
침대인공조랑궤련속운행시능모대,구동전궤역과재、온도고등결점,대기결구진행료개진설계,병장모호추리기술인입인공조랑궤공제계통,건립료모호공제규칙。방진결과표명,채용료개진결구화모호공제적조랑궤풍궤전속수출련속은정,풍궤운행중부재변화솔득도명현개선,체도절능적목적。
According to the shortcomings of large energy consumption, overload and high temperature of driving motor, the structure of pneumatic wave-maker has been improved. In addition, the fuzzy control technology has been applied to the control of artificial wave-maker, and the fuzzy rules have been built. The simulation results show that the fan speed is continuous and stable, change rate of fan load has been optimized obviously and achieves the purpose of energy saving.
