EMS软件功能的设计
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摘要
以某公司EMS软件设计为背景,进行系统功能模块的确定。在确定模块的基础之上,进行模块功能的分析与设计,以实际应用为背景进行软件实现,最终完成EMS的系统设计工作。经验证,EMS上线后,满足既定的节能降耗的目标,大幅提高人员生产效率,吨钢能耗下降10%以上。
Basing on the design of EMS, we determine several functional modules of the system. Basing on the functional modules, we analysis and design the module function. We realize the software as the background of practical application. At last, the work that is the design of EMS is finished. By the test, after the EMS has been used in the production process, the system has meet the target that is energy saving and consumption reducing, the system improves production efficiency, per ton of steel's energy consumption decrease by more than 10%.
Basing on the design of EMS, we determine several functional modules of the system. Basing on the functional modules, we analysis and design the module function. We realize the software as the background of practical application. At last, the work that is the design of EMS is finished. By the test, after the EMS has been used in the production process, the system has meet the target that is energy saving and consumption reducing, the system improves production efficiency, per ton of steel's energy consumption decrease by more than 10%.
引文
[1]万鲁愚.新一代钢铁厂协同智能管控中心研究[J].冶金自动化,2014,38(4):1-6,20.
[2]张捍东,姚园园,凌羡彥,等.转炉炼钢炉料配比模型的构建与分析[J].钢铁研究学报,2016(7):32-37,43.
[3] WANG Y F,LI H M,SONG Q J,et al. The conse-quence of energy policies in China:A case study ofthe iron and steel sector[J]. Resources,Conservation&Amp,Recycling,2017,117.
[4]胡哲,姚园园,张捍东.转炉炉料配比最优参数的分析与求解[J].云南冶金,2016(03):41-46,66.
[5] ZHANG Z H. The Construction and Analysis of In-dustrial Innovation System for China's Iron and SteelIndustry[A]. Zhejiang University,P.R. China,Universityof Cambridge,U.K..Proceedings of the First Interna-tional Symposium on Global Manufacturing and China[C]. Zhejiang University,P.R. China、University ofCambridge,U.K.,2005.
[6]万江,张志霄.钢铁企业信息化能源管理系统的软件开发[J].机械制造与自动化,2015,44(1):137-139.
[7] WANG H F,ZHANG C X,QIE J M, et al. Develop-ment trends of environmental protection technologiesfor Chinese steel industry[J]. Journal of Iron and SteelResearch(International),2017,24(3):235-242.
[2]张捍东,姚园园,凌羡彥,等.转炉炼钢炉料配比模型的构建与分析[J].钢铁研究学报,2016(7):32-37,43.
[3] WANG Y F,LI H M,SONG Q J,et al. The conse-quence of energy policies in China:A case study ofthe iron and steel sector[J]. Resources,Conservation&Amp,Recycling,2017,117.
[4]胡哲,姚园园,张捍东.转炉炉料配比最优参数的分析与求解[J].云南冶金,2016(03):41-46,66.
[5] ZHANG Z H. The Construction and Analysis of In-dustrial Innovation System for China's Iron and SteelIndustry[A]. Zhejiang University,P.R. China,Universityof Cambridge,U.K..Proceedings of the First Interna-tional Symposium on Global Manufacturing and China[C]. Zhejiang University,P.R. China、University ofCambridge,U.K.,2005.
[6]万江,张志霄.钢铁企业信息化能源管理系统的软件开发[J].机械制造与自动化,2015,44(1):137-139.
[7] WANG H F,ZHANG C X,QIE J M, et al. Develop-ment trends of environmental protection technologiesfor Chinese steel industry[J]. Journal of Iron and SteelResearch(International),2017,24(3):235-242.