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Occupational Risk Control

Derek Viner
€55.99
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accident investigation methods
Accident Prevention Programmes
Accident Theory
Action Failure Probability
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Business Process
Category=GPQD
Category=JMJ
Category=KJM
Category=KNXC
component
Component Failure Probabilities
damage process modelling
diagram
energy
Energy Source
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eq_business-finance-law
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eq_nobargain
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eq_society-politics
failure
Failure Probability
Fn Curve
Glide Slope
gravitational
Gravitational Potential Energy
Human Suffering
industrial safety engineering
Initial Point Estimate
Interlocked Guards
Logic Diagram
Lost Time Injury Frequency Rate
Mathematical Expression
measures
Numerous Small Improvements
occurrence
potential
probabilities
processes
Proposed Control Measure
quantitative risk analysis applications
Real Accident Data
Risk Control Measure
Risk Diagram
risk estimation techniques
safety legislation compliance
technical risk management
Time Sequence Model
Top Event Probability
Unsafe Acts
Vice Versa

Product details

  • ISBN 9780367879235
  • Weight: 530g
  • Dimensions: 174 x 246mm
  • Publication Date: 12 Dec 2019
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

Occupational Risk Control contains a practical theory of risk based on the principles of the physical sciences. The book provides details of the implications of such theory for real-world practice that will be of value to the legislator, general or specialist risk engineer, scientist, academic, student, risk/safety practitioners as well as managers of industrial or commercial undertakings.

The contents are a result of over 40 years of experience in researching, teaching and consulting. The theoretical base is relevant peer-reviewed physical sciences literature. Such literature points out the necessity of understanding the principles that enable processes resulting in damage and loss to be explained and it enables the risk arising from the uncertainty of these processes to be objectively defined, described as well as estimated using real number values. Of these principles and their applications a student once remarked “this should be compulsory study for all engineering students”.

A critical assessment of the pervasive but unscientific accident terminology is included to assist the reader to reflect on the value of this In a field in which there is a plethora of commercial and pseudo-academic practical tools based on accident theory, this text provides a foundation for the thinking academic and practitioner to critically evaluate the meaning, scope and value of such tools.

The text has chapters on accident theory, damage process models, risk, risk estimation, risk control, risk evaluation, the classification and analysis of risks, risk numeracy, the management of risks in general and the management of technical risks in particular. There are notes on accident investigation and the role of the risk adviser. A substantial glossary of terms is included.

The text is supported by a dedicated web site (www.derekviner.com) which contains discussion and examples of topics as well as a blog.
About Derek Viner
During his 40 plus year consulting career Derek Viner, at various times, held the positions of Adjunct Professor, Associate Professor and academic associate at three Australian universities.  His consulting practice in a range of heavy industries and different cultures enabled practical experience to enrich academic practice and vice versa.

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