Intelligent Manufacturing Production Line Simulation of Super Capacitor

Authors

  • Li He Shanghai University
  • Tengyu Li Shanghai University
  • Bin He Shanghai University

DOI:

https://doi.org/10.18196/jrc.2374

Keywords:

Digital twins, production lines

Abstract

With the improvement of sensing technology, the improvement of software and hardware technology and computer operation ability, the digital twin technology has been further developed with the promotion of industrial intelligence and industrial information system. Digital twin technology is gradually applied to the simulation design and optimization of complex production line. The production line of super capacitor is a kind of complex production lines, so many factors need to be considered in the design process. Therefore, the digital twin technology is used to design the production line. In this paper, the plant simulation software of Siemens company is used to simulate the super capacitor production line, so as to verify the rationality of the application of digital twin technology in the complex production line design process, and study the influence of AGV car characteristics on the production line. Simulation in virtual space can well demonstrate the actual production process. The failure and other factors in the actual production process can be replaced in the form of failure rate in the simulation environment. Data statistics and other functions can directly see the changes of various parameters in the production line, to get a better optimization scheme.

References

S. Wu, A. Xu, W. Song, and X. Li, "Structural Optimization of the Production Process in Steel Plants Based on Flexsim Simulation," Steel Research International, vol. 90, no. 10, 2019.

J. Y. Wan, L. Y. Gao, and Z. F. Xu, "Research on MP-X Assembly Line Planning Simulation Based on Flexsim," Applied Mechanics and Materials, vol. 2025, 2012.

X. Sun, "Simulations on the Spare Parts Inventory Management of Equipment Maintenance in Manufacturing Enterprise Based on Flexsim," Advanced Materials Research, vol. 2450, 2013.

J. Rongfen, M. Xiaoxia, and L. Tongjuan, "The Simulation and Optimization Research of a Filling Station Based on Flexsim," Journal of Applied Science and Engineering Innovation, vol. 3, no. 3, 2016.

G. V. P. Rao, S. Nallusamy, and P. Raman, "Enhancement of Production in Subassembly Line of a Medium Scale Industry Using Different Lean Tools and Flexsim Simulation Software," International Journal of Engineering Research in Africa, vol. 4743, 2019.

K. Pongjetanapong, M. O’Sullivan, C. Walker, and N. Furian, "Implementing complex task allocation in a cytology lab via HCCM using Flexsim HC," Simulation Modelling Practice and Theory, vol. 86, 2018.

J. L. Peng, "Optimization on the Improvement Schemes of Production Logistics System Based on Flexsim Simulation," Advanced Materials Research, vol. 1250, 2011.

X. Nie and L. Wang, "Simulation Process Design for Scheduling Mode of Railway Container Terminals based on Flexsim," Journal of Physics: Conference Series, vol. 1176, no. 5, 2019.

M. V. S. Kumar, G. Sanjeev, K. Amarnath, and S. V. Krishna, "Performance Evaluation of an FMS with Alternative Machines using Flexsim Simulation Software," International Journal of Engineering and Management Research (IJEMR), vol. 6, no. 4, 2016.

B. S. Kumar, G. J. Raju, and G. R. Janardhana, "Simulation Modelling and Analysis of Flexible Manufacturing Systems with flexsim software," Research Journal of Engineering and Technology, vol. 9, no. 1, 2018.

S. Huihui, M. Xiaoxia, and M. Xiangguo, "Simulation and Optimization of Warehouse Operation Based on Flexsim," Journal of Applied Science and Engineering Innovation, vol. 3, no. 4, 2016.

H. He and Z. Hu, "Analysis of Fast Food Service Capability Based on Flexsim Modeling and Simulation," IOP Conference Series: Materials Science and Engineering, vol. 394, no. 5, 2018.

L.-H. Chen, D.-W. Hu, and T. Xu, "Highway Freight Terminal Facilities Allocation based on Flexsim," Procedia - Social and Behavioral Sciences, vol. 96, 2013.

F. Zhang and C. Tian, "Study on Modeling and Simulation of Logistics Sorting System Based on Flexsim," International Journal of Advanced Network, Monitoring and Controls, vol. 2, no. 4, 2018.

G. Yong, Z. Taoxing, W. Dongmei, R. Jianxin, and W. Hui, "Optimization and Simulation of Express Sorting System in E-commerce Background," Journal of Shijiazhuang Tiedao University(Social ence Edition), 2019.

C. Yanru, X. U. Zhigang, D. Shuhao, Q. Kaizhong, and Y. Deyu, "Optimization of reducer assembly process based on value stream mapping technology," Manufacturing Technology & Machine Tool, 2019.

G. E. Xiao-Mei, L. I. Qian-Long, Z. Xi, H. Jia-Li, and Z. Zhe, "Optimization and Simulation of Movable Cabinet Assembly Line Based on Flexsim," Value Engineering, 2019.

H. Wei-Jian and X. U. Jian-Zhou, "Research on Unattended Warehouse Simulation Based on Flexsim," Logs Engineering and Management, 2019.

T. U. Tian-Hui, X. U. Ze, H. Lei, F. U. Jian-Lin, and D. Guo-Fu, "The Simulation and Optimization of Wheelset Pressing Production Line Based on Flexsim," Modular Machine Tool & Automatic Manufacturing Technique, 2019.

O. Riskadayanti, Yuniaristanto, W. Sutopo, and M. Hisjam, "Discrete-event simulation of a production process for increasing the efficiency of a newspaper production," IOP Conference Series: Materials Science and Engineering, 2019.

Z. Lin, D. Pengzheng, H. U. Lingling, S. Liming, and Y. U. Xiaohong, "Analysis and Optimization of Sofa Production Operation Based on Flexsim," Furniture, 2019.

Z. Kangqu, Y. Kun, and Y. Siqi, "Simulation and Optimization of Micro-Cultivator Packing Line of HTBS," Industrial Engineering Journal, 2019.

Q. Jin and T. T. Li, "Operation Improvement of Third-Party Logistics Enterprise Based on Activity-Based Costing Method," in ICMSS 2020: 2020 4th International Conference on Management Engineering, Software Engineering and Service Sciences, 2020.

W. Geng, X. U. Cai-Guang, C. F. E. Co, and Ltd, "Simulation study on the capacity of Tonggu channel in Shenzhen Port based on Flexsim," Port & Waterway Engineering, 2019.

B. Bing-Liang and L. Lin, "Optimization of Motor Assembly Line Balance Based on Flexsim Simulation," Value Engineering, 2019.

J. Liu, G. Lu, and H. Wang, "Simulation of Automated Stereo Warehouse System Based on Flexsim," 2018.

J. Cong and C. Er-Wei, "Flexsim Simulation-based Assembly Shop Process Optimization," Logs Engineering and Management, 2018.

Y. Yi, L. Dingyi, and S. University, "Research on Sorting Flow Simulation of Campus Common Distribution Service Station Based on FlexSim," Logistics Sci-Tech, 2018.

Z. Ruihan and T. Xiaowei, "Application of Flexsim simulation in Shanghai Pudong International Airport ground taxiing optimization," Journal of Civil Aviation University of China, 2018.

F. Dianjun, L. Wei, and Z. Xinyan, "Simulation and Optimization of Plant Logistics and Transportation Processes Based on Flexsim," Logs Technology, 2018.

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Published

2021-05-05

Issue

Vol. 2 No. 3 (2021): May

Section

Articles

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