Cris Whetton scite author profile

Cris Whetton

5Publications

18Citation Statements Received

0Citation Statements Given

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University of Sheffield

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Hazard identification based on plant functional modelling

Rasmussen

Whetton²

1997

Reliability Engineering & System Safety

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A major objective of the present work is to provide means for representing a process plant as a socio-tcchnical system, so as to allow hazard identification at a high level. The method includes technical, human and organisational aspects and is intended to be used for plant-level hazard identification so as to identify critical areas and the need for further analysis using existing methods. The first part of the method is the preparation of a plant functional model where a set of plant functions link together hardware, software, operations, work organisation and other safety related aspects of the plant. The basic principle of the functional modelling is that any aspect of the plant can be represented by an object (in the sense that this term is used in computer science) based upon an Intent (or goal); associated with each Intent are Methods, by which the Intent is realized, and Constraints, which limit the Intent. The Methods and Constraints can themselves be treated as objects and decomposed into lower-level Intents (hence the procedure is known as functional decomposition) so giving rise to a hierarchical, object-oriented structure. The plant level hazard identification is carried out on the plant functional model using the Concept Hazard Analysis method. In this, users will be supported by checklists and keywords and the analysis is structured by pre-defined worksheets. The preparation of the plant functional model and the performance of the hazard identification can be carried out manually or with computer support.The present report is the main deliverable of work package 3.1 of the project An Overall Knowledge-based Methodology for Hazard Identification sponsored by the CEC STEP programme (contract no. STEP-CT9O-0O85). Windows is a registered trademark of Microsoft

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Preliminary safety analysis

Wells

Wardman

Whetton

1993

Journal of Loss Prevention in the Process Industries

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Maintainability and its Influence on System Safety

Whetton

1994

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The engineer and status

Jones

Whetton²

1979

Electron. Power UK

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Untitled

Whetton¹

2001

Chemical Engineering Research and Design

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Cris Whetton

Hazard identification based on plant functional modelling

Preliminary safety analysis

Maintainability and its Influence on System Safety

The engineer and status

Untitled

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