Development and research on 3-D maintenance simulation training system for large and medium pumping station unit
ZHENG Yuan1, LI Li2*, MENG Zhiwei3
1.Institute of Innovation, Hohai University, Nanjing, Jiangsu 210098, China; 2.College of Energy and Electrical Engineering, Hohai University, Nanjing, Jiangsu 210098, China; 3.College of Computer and Information, Hohai University, Nanjing, Jiangsu 210098, China
Abstract:In order to realize the 3-D visualization of pump station unit maintenance and strengthen the technical guidance and training of the maintenance personnel,combined with the maintenance process of Gao Gang Pumping Station Taizhou of Jiangsu, with the help of VS2010,osg,QT, Premiere and other software,a 3-D simulation training system of large and medium pumping station unit was established using 3ds Max software on the pumping station plant and unit block modeling.The 3-D animation technology,virtual assembly technology,3-D interactive technology and virtual reality technology were used to construct the pump station unit.The system created a unit maintenance model library,achieved the unit maintenance of multimedia presentation,simulation training functions and skills identification and other functions, and created a new simulation exercise platform of the large and medium pumping station unit maintenance operations.The system provides a powerful 3-D demonstration animation,showing a flexible and accurate interactive roaming environment,and the skills of the students can be systematically identified.The system can strengthen the training results and effectively solve the pump station maintenance personnel training problems,providing reference for the standardized maintenance of pumping station.
郑源, 李丽*, 孟志伟. 大中型泵站机组三维检修仿真培训系统开发[J]. 排灌机械工程学报, 2018, 36(7): 587-592.
ZHENG Yuan, LI Li*, MENG Zhiwei. Development and research on 3-D maintenance simulation training system for large and medium pumping station unit. Journal of Drainage and Irrigation Machinery Engin, 2018, 36(7): 587-592.
[1]张加雪,钱福军.泵站工程管理[M].北京:中国水利水电出版社,2016:1-2.[2]魏佳芳,郑源,杨战军,等.轴流式水轮发电机组多媒体检修仿真系统研究[J].水力发电学报,2014,33(2):230-234. WEI Jiafang,ZHENG Yuan,YANG Zhanjun,et al.Multimedia simulation system for kaplan turbine units[J].Journal of hydroelectric engineering,2014,33(2):230-234.(in Chinese)[3]李丹,宁淑贤,李龙,等.水电机组标准化检修培训三维仿真系统[J].水电能源科学,2011,29(4):147-148,151. LI Dan,NING Shuxian,LI Long,et al.3d simulation system of standardized maintenance and training for turbine generator sets[J].Water resources and power,2011,29(4):147-148,151.(in Chinese)[4]阚阚,郑源,罗欣,等.混流式水轮发电机组检修三维仿真与信息管理系统[J].水利水电技术,2014,7(7):80-83. KAN Kan,ZHENG Yuan,LUO Xin,et al.3d simulation and information management system of maintenance for francis turbine-generator unit[J].Water resources and hydropower engineering,2014,7(7):80-83.(in Chinese)[5]岳志伟,郑源,杨战军,等.混流式水轮发电机组的检修、装配仿真培训系统开发与应用[J].水电能源科学,2016,34(3):170-173. YUE Zhiwei,ZHENG Yuan,YANG Zhanjun,et al.Development and application of simulation and training system about maintenance and assembly of francis turbine generator[J].Water resources and power,2016,34(3):170-173.(in Chinese)[6]马秋爽.灯泡贯流式水电站虚拟系统的设计与实现[D].邯郸:河北工程大学,2013.[7]李龙,袁珏.三维可视化技术在风电机组中的应用[J].湖南城市学院学报(自然科学版),2012,21(2):76-78. LI Long,YUAN Yu.Application of three-dimensional visualization for wind turbine unit[J].Journal of Hunan City University(natural science edition),2012,21(2):76-78.(in Chinese)[8]沈斌,黄贤荣.抽水蓄能电站发电机检修工艺流程可视化系统的实现[J].水电与抽水蓄能,2015,1(3):28-34,48. SHEN Bin,HUANG Xianrong.The realization of visua-lization system for generator maintenance technology process of pumped storage power plant[J].Hydropower and pumped storage,2015,1(3):28-34,48.(in Chinese)[9]钱福军,杨鹏,蒋步军,等.高港泵站水利枢纽自动化系统[J].排灌机械,2001,19(5):32-44. QIAN Fujun,YANG Peng,JIANG Bujun,et al.Automation system of Gaogang Pumping Station pivot of water conservancy[J].Drainage and irrigation machinery,2001,19(5):32-44.(in Chinese)[10]刘惠义,李晓芳.大型水利工程复杂虚拟视景建模与实时绘制[J].水力发电学报,2008,27(1): 124-128. LIU Huiyi,LI Xiaofang.Modeling and real-time rende-ring complex virtual scene of hydraulic engineering[J].Journal of hydroelectric engineering,2008,27(1): 124-128.(in Chinese)[11]LIU Huiyi,ZHU Yuerong,WANG Xingguang.Modeling of complex virtual scene in water diversion engineering[C]//Proceedings of the Second International Sympo-sium on Methodology in Hydrology、 Nanjing:AHS,2007.[12]侯文君.基于情境感知的智能虚拟装配系统若干关键技术研究[D].北京:北京邮电大学,2010.[13]宋晨,刘惠义.一种多Agent的情境装配模型[J].计算机集成制造系统,2016,22(5):1205-1211. SONG Chen,LIU Huiyi.Multi-agent based context-aware assembly model[J].Computer integrated manufacturing systems,2016,22(5):1205-1211.(in Chinese)[14]宋晨,刘惠义.一种多层分布式情境装配模型[J].计算机与现代化,2016(3):116-121. SONG Chen,LIU Huiyi.A distributed multi-layer context-aware assembly model[J].Computer and modernization,2016(3):116-121.(in Chinese)[15]YANG Jing,ZENG Xiaoqin,WU Shengli,et al.An effective neural network ensemble approach for improving generalization performance[J].Transactions on neural networks and learning systems,2013,24(6):878-887.[16]刘惠义,邱云,张春红.虚拟视景交互漫游系统的实时碰撞检测方法研究[J].河海大学学报(自然科学版),2005,33(3):339-342. LIU Huiyi,QIU Yun,ZHANG Chunhong.Real-time collision detection method for virtual scene interactive wandering system[J].Journal of Hohai University(natural science edition),2005,33(3):339-342.(in Chinese)
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