Crude oil scheduling event tracing and restoring based on production data

doi:10.11949/j.issn.0438-1157.20141477

CIESC Journal ›› 2015, Vol. 66 ›› Issue (1): 338-350.DOI: 10.11949/j.issn.0438-1157.20141477

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Crude oil scheduling event tracing and restoring based on production data

ZHANG Rui, FENG Yiping, RONG Gang

State Key Laboratory of Industrial Control Technology, Zhejiang University, Hangzhou 310027, Zhejiang, China

Received:2014-09-28 Revised:2014-10-08 Online:2015-01-05 Published:2015-01-05
Supported by:
supported by the National High Technology Research and Development Program of China(2012BAE05B05).

基于生产数据的原油加工事件跟踪和还原

张睿, 冯毅萍, 荣冈

浙江大学工业控制技术国家重点实验室, 浙江杭州 310027

通讯作者: 张睿
基金资助:
国家高技术研究发展计划项目(2012BAE05B05)。

Abstract

Abstract:

Production scheduling is an important part of manufacturing execution system. However, the effect of scheduling has not been evaluated timely. An online tracing method is proposed to guide production more effectively. By means of data analysis, information integration, online tracing and movement combination, it is available to restore the scheduling event and estimate the effect. Simulation results show a superior performance in crude oil processing.

Key words: production data, scheduling event, online tracing and restoring, movement combination, data reconciliation

摘要：

生产调度是生产执行系统MES的重要组成部分, 但目前对调度令的执行效果缺乏分析与反馈。为了更及时有效地指导生产, 提出了调度事件跟踪和还原的方法。基于生产数据的分析和处理, 利用多源测量数据之间的信息冗余性, 进行信息整合、事件跟踪与移动合成的方法, 实现了对流程工业现场调度事件的在线跟踪和还原, 尤其适用于原油加工调度。

关键词: 生产数据, 调度事件, 在线跟踪和还原, 移动合成, 数据协调

CLC Number:

ZHANG Rui, FENG Yiping, RONG Gang. Crude oil scheduling event tracing and restoring based on production data[J]. CIESC Journal, 2015, 66(1): 338-350.

张睿, 冯毅萍, 荣冈. 基于生产数据的原油加工事件跟踪和还原[J]. 化工学报, 2015, 66(1): 338-350.

References 21

[1]	Yao Jianchu(姚建初). A system for intelligent optimization design in CIPS [J]. Computer Integrated Manufacturing Systems(计算机集成制造系统), 2000, 6(5): 39-42
[2]	Xu Yongmao(徐思懋). CIMS in the process industry [J]. Control and Instruments in Chemical Industry(化工自动化及仪表), 1997, 24(3): 58-62
[3]	Shah N. Mathematical programming techniques for crude oil scheduling [J]. Computers and Chemical Engineering, 1996, 20: 1227-1232
[4]	Kelly J D, Mann J L. Crude-oil blend scheduling optimization: an application with multi-million dollar benefits(Part Ⅰ) [J]. Hydrocarbon Processing, 2003, 82(5): 47-53
[5]	Yu Y, Lee J M. Probabilistic modeling and dynamic optimization for performance improvement and risk management of plant-wide operation[J]. Computers & Chemical Engineering, 2010, 34(4): 567-579
[6]	Berglund M, Karltun J. Human, technological and organizational aspects influencing the production scheduling process [J]. International Journal of Production Economics, 2007, 110(1): 160-174
[7]	Klein D F. Beyond significance testing: reforming data analysis methods in behavioral research[J]. American Journal of Psychiatry, 2005, 162(3): 643-644
[8]	Cieslak R, Desclaux C, Fawaz A S, et al. Supervisory control of discrete-event processes with partial observations [J]. IEEE Transactions on Automatic Control, 1988, 33(3): 249-260
[9]	Baykaso?lu A, Göçken M, Özbak?r L, et al. Composite dispatching rule generation through data mining in a simulated job shop//Modeling, Computation and Optimization in Information Systems and Management Sciences[C]. Berlin: Springer Berlin Heidelberg, 2008: 389-398
[10]	Qin Yaming(秦亚明). Analysis on the role of MES system in petrochemical enterprise statistical calculation [J]. Modern Economic Information(现代经济信息), 2012, 3: 45
[11]	Zeigler B. Theory of Modeling and Simulation[M]. New York: John Wiley,1976
[12]	Zheng Liyu(郑丽钰). Multi-level modeling and simulation of material flow process for petrochemical industries based on DEVS[D]. Hangzhou: Zhejiang University, 2008
[13]	Ramadge P J G, Wonham W M. The control of discrete event systems [J]. Proceedings of the IEEE, 1989, 77(1): 81-98
[14]	Ierapetritou M G, Floudas C A. Effective continuous-time formulation for short-term scheduling(Ⅰ): Multipurpose batch processes [J]. Industrial and Engineering Chemistry Research, 1998a, 37: 4341-4359
[15]	Floudas C A, Lin X. Continuous-time versus discrete-time approaches for scheduling of chemical processes: a review [J]. Computers and Chemical Engineering, 2004, 28: 2109-2119
[16]	Pinto J M, Joly M, Moro L F L. Planning and scheduling models for refinery operations [J]. Computers & Chemical Engineering, 2000, 24(9): 2259-2276
[17]	Hua B, Zhou Z Y, Cheng S W. A hierarchical model architecture for enterprise integration in chemical industries [J]. Chinese Journal of Chemical Engineering, 2001, 9(4): 395-401
[18]	Wang Xu(王旭). Research on multi-layer data rectification algorithm for process industry and its application[D]. Hangzhou: Zhejiang University, 2008
[19]	Chen Changju(陈昌菊), Feng Yiping(冯毅萍), Xu Hua(许华), Rong Gang(荣冈). Multiscale data rectification method with application to material balance in petrochemical enterprises [J]. CIESC Journal(化工学报), 2010, 61(8): 1919-1926
[20]	Dong Tianxiang(董天翔). Research and development of a multi-layer material balance and analysis software for process industrial application[D]. Hangzhou: Zhejiang University, 2010
[21]	Guo Chao(郭超), Jin Xiaoming(金晓明), Rong Gang(荣冈). Application of data reconciliation method in material balance in process industry [J]. Control and Instruments in Chemical Industry(化工自动化仪表), 2005, 32(3): 39-41

Crude oil scheduling event tracing and restoring based on production data

基于生产数据的原油加工事件跟踪和还原

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