1991
DOI: 10.1021/ie00053a012
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Fault detection and diagnosis in a closed-loop nonlinear distillation process: application of extended Kalman filters

Abstract: A strategy for fault detection and diagnosis in a closed-loop nonlinear system is described. An extended Kalman filter (EKF) is applied inside the control loop. The EKF recovers information from noisy measurement signals, providing estimates of state variables and unknown parameters of the process. The state estimates produced by the EKF are the inputs to the controller. Since the noise in the measurements is reduced significantly, the control quality is much better than that achieved with application of expon… Show more

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Cited by 51 publications
(16 citation statements)
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“…A general fault detection and diagnosis procedure was first proposed in [92] by using residuals (or innovations) generated by Kalman filters with similar structure to observers, where the faults were diagnosed by statistic testing on whiteness, mean and covariance of the residuals. A variety of statistical tools, such as generalized likelihoods [93], χ 2 testing [94], cumulative sum algorithms [95] and multiple hypothesis test [96] [97]. The unscented Kalman filter (UKF), depending on a more accurate stochastic approximation, i.e., unscented transform, can better capture the true mean and covariance leading to better diagnosis performance [98,99].…”
Section: B Stochastic Fault Diagnosis Methodsmentioning
confidence: 99%
“…A general fault detection and diagnosis procedure was first proposed in [92] by using residuals (or innovations) generated by Kalman filters with similar structure to observers, where the faults were diagnosed by statistic testing on whiteness, mean and covariance of the residuals. A variety of statistical tools, such as generalized likelihoods [93], χ 2 testing [94], cumulative sum algorithms [95] and multiple hypothesis test [96] [97]. The unscented Kalman filter (UKF), depending on a more accurate stochastic approximation, i.e., unscented transform, can better capture the true mean and covariance leading to better diagnosis performance [98,99].…”
Section: B Stochastic Fault Diagnosis Methodsmentioning
confidence: 99%
“…Step 3: The nonlinear state equation and output functions are linearized around the current estimated state, b e x k 1 , as in Equations (19) and (20):…”
Section: Robust Observer Algorithmmentioning
confidence: 99%
“…A binary distillation column used by Li and 01-son [5] and Benallou et al [6] was chosen in this work as a test problem. The distillation column consisted of 30 trays, a condenser and a reboiler.…”
Section: Distillation Processmentioning
confidence: 99%
“…The standard deviation of the noise was five percent of the measurements. The reason for using composition on the middle trays instead of those on the top and bottom is that the middle trays are more sensitive to faults [5]. In addition, after the faults are overcome by regulators, the top and bottom compositions remain unchanged while the compositions of the two middle trays transit to new steady states.…”
Section: Distillation Processmentioning
confidence: 99%
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