Evaluation and Optimization of Total Factor Energy Efficiency of Manufacturing System Based on DEA

doi:10.3969/j.issn.1007-7375.2019.05.003

Abstract

Abstract: At present, the energy efficiency evaluation of the manufacturing system in the machining workshop has many problems to be solved. For example, it needs to analyze the energy consumption based on a large number of machining experiments and it acquires the energy efficiency index depended on the empirical formula, more importantly, it doesn't realize the energy efficiency optimization after the energy efficiency evaluation. Therefore, firstly, based on the monitoring data of production management information system, an evaluation index of total factor energy efficiency for the manufacturing system is proposed. Secondly, the total factor energy efficiency is obtained by Data Envelopment Analysis method. Thirdly, the energy efficiency optimization method is used to construct the energy efficiency function, so that the quantitative methods of reducing energy consumption and improving energy efficiency are derived; Finally, the energy study on an assembly workshop of transmission box is taken as an example to verify the theoretical and application value of the evaluation and optimization method.

Key words: data envelopment analysis (DEA), total factor energy efficiency (TFEE), energy efficiency evaluation and optimization, the manufacturing system

CLC Number:

TG501

WANG Qiulian, HUANG Yuan. Evaluation and Optimization of Total Factor Energy Efficiency of Manufacturing System Based on DEA[J]. Industrial Engineering Journal, 2019, 22(5): 19-24.

References

[1] 刘飞.机械加工系统能量特性及其应用[M].北京:机械工业出版社, 1995.
[2] GUTOWSKI T, DAHMUS J, THIRIEZ A. Electrical energy requirements for manufacturing processes[C/OL]. (2006-05-31). http://mafiadoc.com/electrical-energy-requurements-for-manufacturing-processes-mit_5a0a46b61723dd644boafd5e.html.
[3] HESSELBACH J, HERRMANN C, DETZER R, et al. Energy efficiency through optimised coordination of production and technical building services[C/OL]. (2008-01). https://search.informit.com.au/document Summary; dn=563827431296163; res=IELENG.
[4] 曹阳明. 基于动态资源的数控加工车间管理系统开发[D]. 上海:东华大学, 2017. CAO Yangming. The development of NC machining workshop management system based on dynamic resources[D]. Shanghai:Donghua University, 2017.
[5] MA J, GE X, CHANG S I, et al. Assessment of cutting energy consumption and energy efficiency in machining of 4140 steel[J]. The International Journal of Advanced Manufacturing Technology, 2014, 74(9-12):1701-1708
[6] LI J G, LU Y, ZHAO H, et al. Optimization of cutting parameters for energy saving[J]. The International Journal of Advanced Manufacturing Technology, 2014, 70(1-4):117-124
[7] WANG Q L, LIU F, WANG X L. Multi-objective optimization of machining parameters considering energy consumption[J]. The International Journal of Advanced Manufacturing Technology, 2014, 71(5-8):1133-1142
[8] YEN TING N, YEE TAN S, SZE CHOONG L J. Internet of things for real-time waste monitoring and benchmarking:waste reduction in manufacturing shop floor[J]. Procedia CIRP, 2017, 61:382-386
[9] CHEN X Z, LI C B, TANG Y, et al. An internet of things based energy efficiency monitoring and management system for machining workshop[J]. Journal of Cleaner Production, 2018, 199:957-968
[10] 唐勇, 张骁, 周霞, 等. 基于DEA-Tobit的创新型医药生物企业创新效率[J]. 工业工程, 2015, 18(5):115-126 TANG Yong, ZHANG Xiao, ZHOU Xia, et al. A DEA-tobit-based analysis of the innovation efficiency of pharmaceutical and biological enterprises[J]. Industrial Engineering Journal, 2015, 18(5):115-126
[11] 杨佳妮. 基于改进SBM模型的制造系统绩效分析研究[D].镇江:江苏科技大学, 2014. YANG Jiani. The analysis of manufacturing system performance evaluation based on improved slacks based measure model[D]. Zhenjiang:Jiangsu University of Science and Technology, 2014.
[12] 李金颖, 成云雪. 基于超效率DEA方法的全要素能源效率分析[J]. 工业工程, 2012, 15(1):87-92 LI Jinying, CHENG Yunxue. Total-factor energy efficiency analysis of Hebei province based on super-efficiency-DEA[J]. Industrial Engineering Journal, 2012, 15(1):87-92
[13] 安会刚, 郭鹏, 杨娅芳. 带偏好的区间DEA模型及其应用[J]. 工业工程, 2007, 10(2):89-92 AN Huigang, GUO Peng, YANG Yafang. The interval DEA model with preference and its application[J]. Industrial Engineering Journal, 2007, 10(2):89-92
[14] 孔阳, 潭江涛. 基于超效率DEA的西部地区工业生态效率评价[J]. 价值工程, 2018(13):67-70 KONG Yang, TAN Jiangtao. The evaluation on industrial eco-efficiency in the western region based on super efficiency DEA[J]. Value Engineering, 2018(13):67-70
[15] ANDERSEN P, PETERSEN N C. A procedure for ranking efficient units in data envelopment analysis[J]. Management Science, 1993, 39(10):1261-1264