1. Sensor fault detection and isolation system for a condensation process.
- Author
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Castro, M.A. López, Escobar, R.F., Torres, L., Aguilar, J.F. Gómez, Hernández, J.A., and Olivares-Peregrino, V.H.
- Subjects
FAULT diagnosis ,CONDENSATION ,NONLINEAR statistical models ,THERMODYNAMICS ,DIFFERENTIAL equations ,HEAT transfer coefficient - Abstract
This article presents the design of a sensor Fault Detection and Isolation (FDI) system for a condensation process based on a nonlinear model. The condenser is modeled by dynamic and thermodynamic equations. For this work, the dynamic equations are described by three pairs of differential equations which represent the energy balance between the fluids. The thermodynamic equations consist in algebraic heat transfer equations and empirical equations, that allow for the estimation of heat transfer coefficients. The FDI system consists of a bank of two nonlinear high-gain observers, in order to detect, estimate and to isolate the fault in any of both outlet temperature sensors. The main contributions of this work were the experimental validation of the condenser nonlinear model and the FDI system. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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