Energy Management Strategy for Electric-Driven Lifting Systems in Heavy Agricultural Machinery

Authors

  • Zhiheng Zhao
  • Guiyou Ye
  • Gaowei Li
  • Gongru Gao
  • Xingyu Fang
  • Baogang Li

DOI:

https://doi.org/10.62051/ijmee.v2n3.09

Keywords:

Energy Recovery, Agricultural Machinery, Force-position Control, Electric Drive Lifting System

Abstract

In this paper, an innovative method for energy recovery and management of the electronically controlled suspension system is proposed and simulated using MATLAB/Simulink, with the aim of enhancing energy efficiency and environmental sustainability. This method employs an integrated control approach based on force-position for tillage depth control. When the tractor suspension is positioned above the soil surface and descending, the PMSM switches to generator mode and uses the PMSM for energy recovery. The simulation results demonstrate the viability of energy recovery in heavy agricultural machinery, offering novel ideas and techniques for effective energy management in such equipment.

References

XU Huang. Research of force-position combined control technology for tractor electrohydraulic hitch system [D]. Nanjing: Nanjing Agricultural University,2010. (in Chinese)

Li B, Pan J, Li Y, et al. Optimization method of speed ratio for power-shift transmission of agricultural tractor[J]. Machines, 2023, 11(4): 438.

CHEN Mingjiang. Research of resistance-adjustment for tractor electrohydraulic hitch system based on the fuzzy algorithm [D]. Nanjing: Nanjing Agricultural University, 2009.( in Chinese)

Gao, X., Xie, G., Li, J., Shi, G., Lai, Q., Huang, Y., 2023. Design and validation of a centrifugal variable-diameter pneumatic high-speed precision seed-metering device for maize. Biosyst. Eng. 227, 161–181.

SHANG Gaogao, XIE Lingyun, JI Shunjing. Research on plowing depth automatic control for tractor hitch system [J]. Journal of Chinese Agricultural Mechanization,2016,37(7) : 136 -140. ( in Chinese)

Agriculture; New Agriculture Data Have Been Reported by Researchers at Kyushu University (Design and Experiment of a Semiphysical Simulation Platform of the Lifting System of a Tractor With an Adaptive Function) [J]. Agriculture Week,2019.

Li B, Sun D, Hu M, et al. Research on economic comprehensive control strategies of tractor-planter combinations in planting, including gear-shift and cruise control[J]. Energies, 2018, 11(3): 686.

Álvarez D, Emiliano M.Applications of the automatic control in the system of get up of three points of the tractor [J]. Revista Ciencias Técnicas Agropecuarias,2013,22(2):74-83.

Li B, Ni K, Li Y, et al. Control strategy of shuttle shifting process of agricultural tractor during headland turn[J]. IEEE Access, 2023, 11: 2169-3536.

GUO Bing. Research of force-position combined control for tractor electro-hydraulic hitch system [D]. Nanjing: Nanjing Agricultural University, 2013. ( in Chinese)

LU Zhixiong, GUO Bing, GAO Qiang, et al. Study on auto-control method and experiment for tractor depth based on fuzzy control [J]. Transactions of the CSAE,2013,29 (23) : 23 -29. ( in Chinese)

Li B, Sun D, Hu M, et al. Automatic gear-shifting strategy for fuel saving by tractors based on real-time identification of draught force characteristics[J]. Biosystems Engineering. 2020. 193. 46-61.

XIE Lingyun. Research on plowing depth automatic control for high-power tractor electro-hydraulic hitch system [D]. Zhenjiang: Jiangsu University, 2016. (in Chinese)

Li B, Sun D, Hu M, et al. Coordinated control of gear shifting process with multiple clutches for power-shift transmission[J]. Mechanism and Machine Theory. 2019. 140. 274-291.

TAN Yu. The study of characteristics for hydraulic hitch & loading system in tractor [D]. Beijing: China Agricultural University, 2004. (in Chinese)

Boe TE, Bergene MA. Tractor three-point hitch control system. SAE paper no. 891835, SAE, 1989.

Xie Bin, Li Hao, Zhu Zhongxiang, et al. Measuring tillage depth for tractor implement automatic using inclinometer [J]. Transactions of the Chinese Society of Agricultural Engineering, 2013, 29(4): 15 -21. (in Chinese)

Li Jinhui. The Research of Battery Solution Promotion System Design in High Powered Tractor [D]. Hangzhou: Zhejiang University of Technology, 2010. (in Chinese)

Zhu Sihong, Zhang Chao. The simulation research on PID controller of tractor electric- hydraulic hitch system [J]. Manufacture Information Engineering of China, 2008, 37(21): 49-53. (in Chinese)

Li B, Sun D, Hu M, et al. Automatic starting control of tractor with a novel power-shift transmission[J]. Mechanism and Machine Theory. 2019. 131. 75-91.

Wang Huiming, Hou Jialin, Zhao Yaohua, et al. Study on automatic control system for hydraulic hitch equipment of tracto [J]. Transactions of the Chinese Society for Agricultural Machinery, 2006, 37(10): 42 -45. (in Chinese)

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Published

21-05-2024

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Articles

How to Cite

Zhao, Z., Ye, G., Li, G., Gao, G., Fang , X., & Li, B. (2024). Energy Management Strategy for Electric-Driven Lifting Systems in Heavy Agricultural Machinery. International Journal of Mechanical and Electrical Engineering, 2(3), 77-84. https://doi.org/10.62051/ijmee.v2n3.09

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