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SCI和EI收录∣中国化工学会会刊
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Table of Content
28 July 2014, Volume 22 Issue 7
    PROCESS SYSTEMS ENGINEERING
    Process Optimization of Ultrasonic Extraction of Puerarin Based on Support Vector Machine
    Juan Chen, Xiaoyi Huang, Yanlei Qi, Xin Qi, Qing Guo
    2014, 22(7):  735-741.  doi:10.1016/j.cjche.2014.05.010
    Abstract ( )   PDF (1248KB) ( )  
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    In ultrasonic extraction technology, optimization of technical parameters often considers extraction medium only,without including ultrasonic parameters. This paper focuses on controlling the ultrasonic extraction process of puerarin, investigating the influence of ultrasonic parameters on extraction rate, and empirically analyzing the main components of Pueraria, i.e., isoflavone compounds. A method is presented combining orthogonal experimental design with a support vector machine and a predictivemodel is established for optimization of technical parameters. Fromthe analysiswith the predictivemodel, appropriate process parameters are achieved for higher extraction rate. With these parameters in the ultrasonic extraction of puerarin, the experimental result is satisfactory. This method is of significance to the study of extracting root-stock plant medicines.
    Genetic Algorithm Based on Duality Principle for Bilevel Programming Problem in Steel-making Production
    Shuo Lin, Fangjun Luan, Zhonghua Han, Xisheng Lü, Xiaofeng Zhou, Wei Liu
    2014, 22(7):  742-747.  doi:10.1016/j.cjche.2014.05.006
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    Steel-making and continuous/ingot casting are the key processes of modern iron and steel enterprises. Bilevel programming problems (BLPPs) are the optimization problemswith hierarchical structure. In steel-making production, the plan is not only decided by the steel-making scheduling, but also by the transportation equipment. This paper proposes a genetic algorithmto solve continuous and ingot casting scheduling problems. Based on the characteristics of the problems involved, a genetic algorithm is proposed for solving the bilevel programming problem in steel-making production. Furthermore, based on the simplex method, a new crossover operator is designed to improve the efficiency of the genetic algorithm. Finally, the convergence is analyzed. Using actual data the validity of the proposed algorithm is proved and the application results in the steel plant are analyzed.
    A Graph-based Ant Colony Optimization Approach for Integrated Process Planning and Scheduling
    Jinfeng Wang, Xiaoliang Fan, Chaowei Zhang, Shuting Wan
    2014, 22(7):  748-753.  doi:10.1016/j.cjche.2014.05.011
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    This paper considers an ant colony optimization algorithm based on AND/OR graph for integrated process planning and scheduling (IPPS). Generally, the process planning and scheduling are studied separately. Due to the complexity of manufacturing system, IPPS combining both process planning and scheduling can depict the real situation of a manufacturing system. The IPPS is represented on AND/OR graph consisting of nodes, and undirected and directed arcs. The nodes denote operations of jobs, and undirected/directed arcs denote possible visiting path among the nodes. Ant colony goes through the necessary nodes on the graph fromthe starting node to the end node to obtain the optimal solution with the objective of minimizing makespan. In order to avoid local convergence and lowconvergence, some improved strategy is incorporated in the standard ant colony optimization algorithm. Extensive computational experiments are carried out to study the influence of various parameters on the system performance.
    PROCESS CONTROL
    Consistency and Asymptotic Property of a Weighted Least Squares Method for Networked Control Systems
    Cong Zhang, Hao Ye
    2014, 22(7):  754-761.  doi:10.1016/j.cjche.2014.05.001
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    In this paper,we study the problems related to parameter estimation of a single-input and single-output networked control system,which contains possible network-induced delays and packet dropout in both of sensor-to-controller path and controller-to-actuator path. A weighted least squares (WLS) method is designed to estimate the parameters of plant,which could overcome the data uncertainty problemcaused by delays and dropout. ThisWLSmethod is proved to be consistent and has a good asymptotic property. Simulation examples are given to validate the results.
    Design and Analysis of Integrated Predictive Iterative Learning Control for Batch Process Based on Two-dimensional System Theory
    Chen Chen, Zhihua Xiong, Yisheng Zhong
    2014, 22(7):  762-768.  doi:10.1016/j.cjche.2014.05.008
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    Based on the two-dimensional (2D) systemtheory, an integrated predictive iterative learning control (2D-IPILC) strategy for batch processes is presented. First, the output response and the error transition model predictions along the batch index can be calculated analytically due to the 2D Roesser model of the batch process. Then, an integrated framework of combining iterative learning control (ILC) andmodel predictive control(MPC) is formed reasonably. The output of feedforward ILC is estimated on the basis of the predefined process 2D model. By minimizing a quadratic objective function, the feedback MPC is introduced to obtain better control performance for tracking problem of batch processes. Simulations on a typical batch reactor demonstrate that the satisfactory tracking performance as well as faster convergence speed can be achieved than traditional proportion type (Ptype) ILC despite the model error and disturbances.
    Model Predictive Control with Feedforward Strategy for Gas Collectors of Coke Ovens
    Kai Li, Dewei Li, Yugeng Xi, Debin Yin
    2014, 22(7):  769-773.  doi:10.1016/j.cjche.2014.05.013
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    In coking process, the production quality, equipment life, energy consumption, and process safety are all influenced by the pressure in gas collector pipe of coke oven, which is frequently influenced by disturbances. The main control objectives for the gas collector pressure system are keeping the pressures in collector pipes at appropriate operating point. In this paper, model predictive control (MPC) strategy is introduced to control the collector pressure system due to its ability to handle constraint and good control performance. Based on a method proposed to simplify the system model, an extended state space model predictive control is designed, which combines the feedforward strategy to eliminate the disturbance. The simulation results in a system with two coke ovens show the feasibility and effectiveness of the control scheme.
    Adaptive Nonlinear Model Predictive Control Using an On-line Support Vector Regression Updating Strategy
    Ping Wang, Chaohe Yang, Xuemin Tian, Dexian Huang
    2014, 22(7):  774-781.  doi:10.1016/j.cjche.2014.05.004
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    The performance of data-drivenmodels relies heavily on the amount and quality of training samples, so itmight deteriorate significantly in the regions where samples are scarce. The objective of this paper is to develop an online SVR model updating strategy to track the change in the process characteristics efficiently with affordable computational burden. This is achieved by adding a new sample that violates the Karush-Kuhn-Tucker conditions of the existing SVR model and by deleting the old sample that has the maximum distance with respect to the newly added sample in feature space. The benefits offered by such an updating strategy are exploited to develop an adaptive model-based control scheme, where model updating and control task perform alternately. The effectiveness of the adaptive controller is demonstrated by simulation study on a continuous stirred tank reactor. The results reveal that the adaptive MPC scheme outperforms its non-adaptive counterpart for largemagnitude set point changes and variations in process parameters.
    Multi-model Predictive Control of Ultra-supercritical Coal-fired Power Unit
    Guoliang Wang, Weiwu Yan, Shihe Chen, Xi Zhang, Huihe Shao
    2014, 22(7):  782-787.  doi:10.1016/j.cjche.2014.05.005
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    The control of ultra-supercritical (USC) power unit is a difficult issue for its characteristic of the nonlinearity, large dead time and coupling of the unit. In this paper, model predictive control (MPC) based on multi-model and double layered optimization is introduced for coordinated control of USC unit. The linear programming (LP) combined with quadratic programming (QP) is used in steady optimization for computation of the ideal value of dynamic optimization. Three inputs (i.e. valve opening, coal flow and feedwater flow) are employed to control three outputs (i.e. load, main steam temperature and main steam pressure). The step response models for the dynamic matrix control (DMC) are constructed using the three inputs and the three outputs. Piecewise models are built at selected operation points. Double-layered multi-model predictive controller is implemented in simulation with satisfactory performance.
    A Composite Model Predictive Control Strategy for Furnaces
    Hao Zang, Hongguang Li, Jingwen Huang, Jia Wang
    2014, 22(7):  788-794.  doi:10.1016/j.cjche.2014.05.014
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    Tube furnaces are essential and primary energy intensive facilities in petrochemical plants. Operational optimization of furnaces could not only help to improve product quality but also benefit to reduce energy consumption and exhaust emission. Inspired by this idea, this paper presents a composite model predictive control (CMPC) strategy, which, taking advantage of distributed model predictive control architectures, combines tracking nonlinear model predictive control and economic nonlinear model predictive control metrics to keep process running smoothly and optimize operational conditions. The controllers connected with two kinds of communication networks are easy to organize and maintain, and stable to process interferences. A fast solution algorithm combining interior point solvers and Newton's method is accommodated to the CMPC realization, with reasonable CPU computing time and suitable online applications. Simulation for industrial case demonstrates that the proposed approach can ensure stable operations of furnaces, improve heat efficiency, and reduce the emission effectively.
    PROCESS MODEL
    Identification of LPV Models with Non-uniformly Spaced Operating Points by Using Asymmetric Gaussian Weights
    Jie You, Qinmin Yang, Jiangang Lu, Youxian Sun
    2014, 22(7):  795-798.  doi:10.1016/j.cjche.2014.05.002
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    In this paper, asymmetric Gaussian weighting functions are introduced for the identification of linear parameter varying systems by utilizing an input-output multi-model structure. It is not required to select operating points with uniform spacing andmore flexibility is achieved. To verify the effectiveness of the proposed approach, severalweighting functions, including linear, Gaussian and asymmetric Gaussianweighting functions, are evaluated and compared. It is demonstrated through simulations with a continuous stirred tank reactor model that the proposed approach provides more satisfactory approximation.
    A Selective Moving Window Partial Least Squares Method and Its Application in Process Modeling
    Ouguan Xu, Yongfeng Fu, Hongye Su, Lijuan Li
    2014, 22(7):  799-804.  doi:10.1016/j.cjche.2014.05.012
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    A selective moving window partial least squares (SMW-PLS) soft sensor was proposed in this paper and applied to a hydro-isomerization process for on-line estimation of para-xylene (PX) content. Aiming at the high frequency of model updating in previous recursive PLSmethods, a selective updating strategywas developed. Themodel adaptation is activated once the prediction error is larger than a preset threshold, or themodel is kept unchanged. As a result, the frequency of model updating is reduced greatly,while the change of prediction accuracy is minor. The performance of the proposedmodel is better as compared with that of other PLS-based model. The compromise between prediction accuracy and real-time performance can be obtained by regulating the threshold. The guidelines to determine the model parameters are illustrated. In summary, the proposed SMW-PLS method can deal with the slow time-varying processes effectively.
    PROCESS MONITOR
    Coordinating and Evaluating of Multiple Key Performance Indicators for Manufacturing Equipment: Case Study of Distillation Column
    Li Zhu, Hongye Su, Shan Lu, YueWang, Quanling Zhang
    2014, 22(7):  805-811.  doi:10.1016/j.cjche.2014.05.007
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    Manufacturing equipment takes the task of operation and directly effects on the manufacturing process. One single Key Performance Indicator (KPI) is mainly employed to evaluate equipment inmost studies, neither integrating the KPIs into a completed evaluation system nor considering the impact and conflict among KPIs. In this paper, a KPI evaluation architecture is presented to define and analyze KPIs, and then a common structure for KPI to obtain the KPI set of manufacturing equipment is introduced. An available multi-KPI coordination model is proposed to discern and balance the relationship amongmulti-KPI. Finally, a case study is introduced to illustrate the applicability of the coordination model by using multi-objective optimization strategy and an efficient solution is obtained.
    Study and Application of Fault Prediction Methods with Improved Reservoir Neural Networks
    Qunxiong Zhu, Yiwen Jia, Di Peng, Yuan Xu
    2014, 22(7):  812-819.  doi:10.1016/j.cjche.2014.05.016
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    Time-series prediction is one of themajor methodologies used for fault prediction. Themethods based on recurrent neural networks have been widely used in time-series prediction for their remarkable non-liner mapping ability. As a new recurrent neural network, reservoir neural network can effectively process the time-series prediction. However, the ill-posedness problemof reservoir neural networks has seriously restricted the generalization performance. In this paper, a fault prediction algorithm based on time-series is proposed using improved reservoir neural networks. The basic idea is taking structure risk into consideration, that is, the cost function involves not only the experience risk factor but also the structure risk factor. Thus a regulation coefficient is introduced to calculate the outputweight of the reservoir neural network. As a result, the amplitude of outputweight is effectively controlled and the ill-posedness problemis solved. Because the training speed of ordinary reservoir networks is naturally fast, the improved reservoir networks for time-series prediction are good in speed and generalization ability. Experiments on Mackey-Glass and sunspot time series prediction prove the effectiveness of the algorithm. The proposed algorithm is applied to TE process fault prediction. We first forecast some timeseries obtained from TE and then predict the fault type adopting the static reservoirs with the predicted data. The final prediction correct rate reaches 81%.
    Adaptive Local Outlier Probability for Dynamic Process Monitoring
    Yuxin Ma, Hongbo Shi, Mengling Wang
    2014, 22(7):  820-827.  doi:10.1016/j.cjche.2014.05.015
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    Complex industrial processes often havemultiple operating modes and present time-varying behavior. The data in one mode may follow specific Gaussian or non-Gaussian distributions. In this paper, a numerically efficient moving windowlocal outlier probability algorithmis proposed. Its key feature is the capability to handle complex data distributions and incursive operating condition changes including slow dynamic variations and instant mode shifts. First, a two-step adaption approach is introduced and some designed updating rules are applied to keep the monitoring model up-to-date. Then, a semi-supervised monitoring strategy is developed with an updating switch rule to deal with mode changes. Based on local probabilitymodels, the algorithm has a superior ability in detecting faulty conditions and fast adapting to slow variations and new operating modes. Finally, the utility of the proposed method is demonstrated with a numerical example and a non-isothermal continuous stirred tank reactor.
    SOFT SENSOR
    Local Partial Least Squares Based Online Soft Sensing Method for Multi-output Processes with Adaptive Process States Division
    Weiming Shao, Xuemin Tian, Ping Wang
    2014, 22(7):  828-836.  doi:10.1016/j.cjche.2014.05.003
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    Local learning based soft sensing methods succeed in coping with time-varying characteristics of processes as well as nonlinearities in industrial plants. In this paper, a local partial least squares based soft sensing method for multi-output processes is proposed to accomplish process states division and local model adaptation, which are two key steps in development of local learning based soft sensors. An adaptive way of partitioning process states without redundancy is proposed based on F-test, where unique local time regions are extracted. Subsequently, a novel anti-over-fitting criterion is proposed for online local model adaptation which simultaneously considers the relationship between process variables and the information in labeled and unlabeled samples. Case study is carried out on two chemical processes and simulation results illustrate the superiorities of the proposed method from several aspects.
    RESEARCH NOTES
    Comparison of Two Types of Control Structures for Benzene Chlorine Reactive Distillation Systems
    Cuimei Bo, Ridong Zhang, Chenghao Zhang, Jihai Tang, Xu Qiao, Furong Gao
    2014, 22(7):  837-841.  doi:10.1016/j.cjche.2014.05.009
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    The “neat” operation of the two-reactant reactive distillation column has better steady-state economics, while it presents a challenge for design, optimization, and control of the process. Based on the optimal economic design, the dual-composition control structure and dual-temperature control structure are designed respectively for the benzene chlorine consecutive reactive distillation process. The effectiveness and robustness are analyzed comparably for the disturbance resistance in terms of changes of production rate and feed composition. Results show that dual-temperature control with propose selection of tray temperatures and the optimal profile of the set point can provide better transient process performance than the composition control structure.