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定性代数方程的简明表达方法-影响方程及其建模 被引量:3

Concise Expression Methods of Qualitative Algebra Equation-affection Equation and Modeling
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摘要 提出了定性代数方程简明表达方法的实现及建模规则。以化工装置中的固定床式烷基转移反应器为例讨论了影响方程建模过程,建立了烷基转移反应器的影响方程,并将影响方程模型直接转化为较为直观的符号有向图(SDG)模型。采用SDG定性推理(即基于网络拓扑的定性仿真方法)识别故障的完备性较高、能够揭示故障演变的路径和历程,在复杂过程系统危险识别和故障诊断领域得到广泛应用。 The modeling rules and concise expression methods for qualitative algebra equation were introduced. The modeling process of affection equation was discussed on the fixed bed transalkylation reactor and the affection equation of the transalkylation reactor was given. The affection equation model can be transformed to the signed directed graph (SDG) model directly. The SDG qualitative inference method (the qualitative simulation method based on net topology) can be used for hazard identification and fault dignosis. This kind of method has higher completeness for fault identification and can be used in search of the pathway of fault evolution. The SDG technique is widely used in hazard identification and fault diagnosis of complex process systems.
作者 吴重光 张卫华 夏迎春 纳永良 吴锋棒
机构地区 北京化工大学信息科学与技术学院 中国石油化工股份有限公司安全工程研究院
出处 《系统仿真学报》 CAS CSCD 北大核心 2009年第19期5990-5993,5997,共5页 Journal of System Simulation
关键词 影响方程 定性仿真 定性代数 定性建模 SDG模型 HAZOP affection equation qualitative simulation qualitative algebra qualitative modeling SDG model HAZOP
分类号 TP391.9 [自动化与计算机技术—计算机应用技术]
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参考文献11

  • 1de Kleer J, Brown J S. A qualitative physics based on confluences [J]. Artificial Intelligence (S0921-7126), 1984, 24(1-3): 7-83.
  • 2Forbus K D. Qualitative Process Theory [J]. Artificial Intelligence (S0921-7126), 1984, 24(3): 85-168.
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  • 4石纯一,廖士中.定性推理方法[M].北京:清华大学出版社,2001.
  • 5吴重光,夏涛,张贝克.基于符号定向图(SDG)深层知识模型的定性仿真[J].系统仿真学报,2003,15(10):1351-1355. 被引量:71
  • 6J Shiozaki, H Matsuyama, K Tano, E O'shima. Fault Diagnosis of Chemical Processes by the use of Signed, Directed Graphs. Extension to Five-range Patterns of Abnormality [J]. International Chemical Engineering (S1542-6580), 1985, 25(4): 651-659.
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二级参考文献20

  • 1黄卫东,王克昌,黄卫东.基于定性和定量关系的液体火箭发动机故障诊断[J].航空动力学报,1996,11(3):281-284. 被引量:16
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  • 5J Shiozaki, H Matsuyama, K Tano, E O'shima. Fault Diagnosis of Chemical Processes by the use of Signed, Directed Graphs. Extension to Five-range Patterns of Abnormality [J]. International Chemical Engineering, 1985, 25(4): 651-659.
  • 6Y Tsuge, J Shiozaki, H Matsuyama, K E O'shima, Y Ignchi, M Fuchigami, M Matsushita. Fesibility Study of a Fault-diagnosis System for Chemical Plants [J]. International Chemical Engineering,1985, 25(4): 660-667.
  • 7M A Kramer, B L Palowitch. A Rule-Based Approach to Fault Diagnosis Using the Signed Directed Graph [J]. AIChE Journal, 1987,33(7): 1607-1078.
  • 8J Shiozaki, B Shibata, H Matsuyama, E O'shima. Fault Diagnosis of Chemical Processes Utilizing Signed Direted Graphs-Improvement by Using Temporal Information [J]. IEEE Transactions on Industrial Electronics, 1989, 36(4): 469-474.
  • 9C C Chang, C C Yu. On-Line Fault Diagnosis Using the Signed Directed Graph [J]. Ind Eng Chem Res, 1990, 29(7): 1290-1299.
  • 10C C Yu, C Lee. Fault Diagnosis Based on Qualitative/Quantitative Process Knowledge [J]. AIChE Journal, 1991, 37(4): 617-628.

共引文献71

同被引文献29

引证文献3

二级引证文献6

系统仿真学报
2009年 第19期

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