José Luis de la Mata scite author profile

José Luis de la Mata

5Publications

13Citation Statements Received

40Citation Statements Given

How they've been cited

How they cite others

Affiliations

Universidad Politécnica de Madrid, Autonomous University of Madrid

Publications

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Automating HAZOP studies using D-higraphs

Rodríguez¹,

Mata²

2012

Computers & Chemical Engineering

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In this paper, we present the use of D-higraphs to perform HAZOP studies. D-higraphs is a formalism that includes in a single model the functional as well as the structural (ontological) components of any given system. A tool to perform a semi-automatic guided HAZOP study on a process plant is presented. The diagnostic system uses an expert system to predict the behavior modeled using D-higraphs. This work is applied to the study of an industrial case and its results are compared with other similar approaches proposed in previous studies. The analysis shows that the proposed methodology fits its purpose enabling causal reasoning that explains causes and consequences derived from deviations, it also fills some of the gaps and drawbacks existing in previous reported HAZOP assistant tools.

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Accident prevention by control system reconfiguration

Mata¹,

Rodríguez²

2010

Computers & Chemical Engineering

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HAZOP studies using a functional modeling framework

Mata

Rodríguez

2012

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In this paper we present a tool to perform guided HAZOP studies using a functional modeling framework: D-higraphs. It is a formalism that gathers in a single model structural (ontological) and functional information about the process considered. In this paper it is applied to an industrial case showing that the proposed methodology fits its purposes and fulfills some of the gaps and drawbacks existing in previous reported HAZOP assistant tools.

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Fault-Tolerant Self-Reconfigurable Control System

Rodríguez

Mata²,

Díaz³

2013

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Self-learning of fault diagnosis identification

Mata

Rodríguez

2011

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A good and early fault detection and isolation system along with efficient alarm management and fine sensor validation systems are very important in today's complex process plants, specially in terms of safety enhancement and costs reduction. This paper presents a mefhodology for fault characterization. This is a self-learning approach developed in two phases. An initial, learning phase, where the simulation of process units, without and with different faults, will let the system (in an automated way) to detect the key variables that characterize the faults. This will be used in a second (on line) phase, where these key variables will be monitored in order to diagnose possible faults. Using this scheme the faults will be diagnosed and isolated in an early stage where the fault still has not turned into a failure.

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