| 132 | 8 | 317 |
| 下载次数 | 被引频次 | 阅读次数 |
为提升散货码头大型带式输送机智能化监控水平,设计了基于物联网的大型带式输送机智能监控系统.在散料输送过程中,该系统可全程对带式输送机物料输送状态进行实时监控,实现了运行过程中物料瞬时流量、带速、功率等状态参数的实时监测,还可根据带式输送机物料瞬时流量远程调节带速,从而实现大型带式输送机系统最佳节能效果.实验结果表明,该系统具有智能化程度高、扩展灵活、性能稳定等优点,说明了系统设计的合理性、稳定性与实用性.该系统的构建和运行,可为港口大型带式输送机调速协调控制策略的制定提供决策支持.
Abstract:In order to enhance the intelligent surveillance level of large belt conveyor in bulk terminal, an intelligent surveillance system of large belt conveyor based on internet of things technology was proposed. In the process of bulk material conveying on the belt, the states of bulk material conveying on the belt conveyor can be monitored in realtime, state parameters such as the instantaneous flow rate, belt speed, and power. It could also realize the best energy saving effect of large belt conveyor system by adjusting the belt speed according to material flow of belt conveyor.Experiments showed that the system has the advantages of low power consumption, low cost, flexible extension and stable performance. It could illustrate the rationality, stability and practicability of the system. It could provide the decision-making support for developing the control strategy of the large belt conveyor in bulk material.
[1]张蓓佳.煤矿企业节能减排动力机制及体系构建研究[D].北京:中国矿业大学,2013:1-3.
[2]张雅俊,乔铁柱.基于速度控制的多级带式输送机顺序启动方法[J].工矿自动化,2017,43(1):52-55.
[3]LUO J L,HUANG W J,ZHANG S R.Energy cost optimal operation of belt conveyors using model predictive control methodology[J].Journal of Cleaner Production,2015,105:196-205.
[4]侯友夫,侯俊学,张永忠.带式输送机可控起动系统动态特性的理论研究[J].中国矿业大学学报,1998,27(3):246-249.
[5]DONG M W,LUO Q.Research and application on energy saving of port belt conveyor[J].Procedia Environmental Sciences,2011,10:32-38.
[6]江苏交科能源科技发展有限公司.皮带输送机节能系统及其节能控制方法:CN102951428A[P].2013-03-06.
[7]武兴华.矿用带式输送机电机系统节能技术现状与发展趋势[J].煤矿机械,2011,32(12):1-3.
[8]孟凡芹,王耀才.煤矿井下带式输送机煤流图像识别方法的研究[J].煤炭学报,2003,28(1):91-95.
[9]曾飞,吴青,初秀民,等.散货码头带式输送机调速节能研究进展[J].制造业自动化,2013(9):1-4.
[10]MAZURKIEWICZ D.Maintenance of belt conveyors using an expert system based on fuzzy logic[J].Archives of Civil and Mechanical Engineering,2015,15(2):412-418.
[11]PANG Y S,LODEWIJKS G,SCHOTT D L.Fuzzy controlled energy saving solution for large-scale belt conveying systems[J].Applied Mechanics and Materials,2013,260/261:59-64.
[12]RISTI C'L,BEBI C'M,SˇTATKI C'S,et al.Bulk material transportation system in open pit mines with improved energy efficiency[C]//Proceedings of the 15th WSEAS International Conference on Systems.World Scientific and Engineering Academy and Society(WSEAS),2011:327-332.
[13]JEFTENI C'B,RISTI C'L,BEBI C'M,et al.Optimal utilization of the bulk material transportation system based on speed controlled drives[C]//The XIX International Conference on Electrical Machines:ICEM,2010:1-6.
[14]LAUHOFF H.Speed control on belt conveyors-dose is really save engery?[J].Bulk Solids Handling,2005,25(6):368-377.
[15]宋伟刚.带式输送机的速度适应控制若干问题的分析[J].煤炭工程,2009(3):101-103.
[16]ZENG F,WU Q,CHU X M,et al.Measurement of bulk material flow based on laser scanning technology for the energy efficiency improvement of belt conveyors[J].Measurement,2015,75(10):230-243.
基本信息:
中图分类号:TP277;U653.922
引用信息:
[1]曾飞,张琪,解泽洋,等.基于物联网的大型带式输送机智能监控系统[J].南通大学学报(自然科学版),2017,16(02):12-16+2.
基金信息:
2013年度交通运输部应用基础(重点平台)资助项目(2013329811340);; 江苏省高校自然科学研究面上项目(14KJB580008);; 南通市科技计划项目(BK2014017);; 江苏省航海学会研究课题(2015B04);; 2016年度南通大学-南通智能信息技术联合研究课题(KFKT2016A10);; 江苏省大学生创新创业训练计划项目(201610304121H)
2017-06-20
2017-06-20