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200 10$aPractical hazops, trips and alarms$b[electronic resource] /$fDavid Macdonald
210   $aOxford $cNewnes$d2004
215   $a1 online resource (345 p.)
225 1 $aPractical professional books from Elsevier
300   $aIncludes index.
311   $a0-7506-6274-3 
327   $aContents; Preface; Introduction to the book; 1. Introduction to hazard studies; 1.1 Scope and objectives of this chapter; 1.2 Introduction to hazards and risk management; 1.3 Risk assessment; 1.4 Concepts of Alarp and tolerable risk; 1.5 Regulatory frameworks and examples from EU and USA; 1.6 Methods of identifying hazards; 2. Hazard studies at levels 1 and 2; Objectives 2; 2.1 Introduction; 2.2 Methodologies for hazard study 1; 2.3 Process hazard study 2; 2.4 Practical example of hazard 2 application; 2.5 Case study; 2.6 Conclusion on hazard studies 1 and 2
327   $a3. Risk reduction measures using alarms and trips3.1 Risk reduction measures; 3.2 Terminologies and standards for safety systems; 3.3 Equipment under control; 3.4 Protection layers; 3.5 The role of alarms in safety; 3.6 Alarm types and do they qualify as safeguards?; 3.7 Identification and design of safety-related alarms; 3.8 Key design principles for alarms; 3.9 SIS, principles of separation; 3.10 Simple and complex shutdown sequences, examples; 3.11 Conclusions: the role of Hazops in defining alarms and trips; 4. Hazop method; Objectives 4; 4.1 Introduction; 4.2 Introduction to Hazop
327   $a4.3 Overview of Hazop method4.4 Points to note on the examination procedure; 4.5 Practical exercise: continuous process example; 4.6 Hazop for batch processes and sequential operations; 4.7 Hazops for other disciplines; 4.8 Conclusions; 5. Planning and leadership of Hazops; Objectives 5; 5.1 Introduction; 5.2 Organizing the Hazop; 5.3 The team leader and the team; 5.4 Practical exercise: hybrid batch process example; 6. Specifying safety instrumented systems; Objectives 6; 6.1 Introduction; 6.2 Risk reduction by instrumented protection
327   $a6.3 What affects the safety integrity of an instrument trip?6.4 Overview of IEC 61508; 6.5 Determining the safety integrity; 6.6 Design essentials to meet SIL targets; 6.7 Specifying the SIS requirements; 6.8 Documenting the SRS; 6.9 Conclusions; 7. Hazard analysis methods; 7.1 Introduction; 7.2 Outline of methods; 7.3 Fault tree analysis; 7.4 Practical exercise in FTA; 7.5 Conclusions; 8. Factors in the choice of protection system; 8.1 Introduction and objectives; 8.2 Equipment selection; 8.3 Key points about sensors and actuators
327   $a8.4 Guidelines for the application of field devices in the SIS8.5 IEC 61508 requirements for field devices; 8.6 Technology issues; 8.7 Guidelines for final elements; 8.8 Summary of technology and applications; 8.9 Summary of SIL vs cost; 9. Exercise in specifying an SIS from the Hazop; Objective 9; 9.1 Introduction; 9.2 Process description; 9.3 Safety requirements specifications; 9.4 Conclusion; Appendix A: References used in the manual; Appendix B: Some websites for safety systems information; Appendix C: Notes on national regulations relevant to hazard study and safety management
327   $aAppendix D: Software tools for hazard studies
330   $aDo you have trips and safety interlocks in your plant? Are they good enough or are they perhaps over-designed and much more expensive than necessary? Are you or your company aware of how Hazard Studies should define risk reduction requirements? Are you actually using Hazard Studies at all?The answer is the integrated approach to safety management. New international standards combined with well-proven hazard study methods can improve safety management in your company.Practical Hazops, Trips and Alarms for Engineers and Technicians describes the role of hazard studies in risk managem
410  0$aPractical professional books from Elsevier.
606   $aMachinery$xSafety appliances
606   $aMachinery$xMonitoring
608   $aElectronic books.
615  0$aMachinery$xSafety appliances.
615  0$aMachinery$xMonitoring.
676   $a621.30289
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200 03$aLe ageing cities tra passato e futuro : $eStrategie, metodi e proposte per migliorare l'accessibilità degli anziani ai servizi urbani /$fGerardo Carpentieri, Carmen Guida, Federica Gaglione$hVolume 7
210  1$a[s.l.] :$cFedOA - Federico II University Press,$d2021.
215   $a1 electronic resource (187 p.)
225 1 $aSmart City, Urban Planning for a Sustainable Future. City and Governance
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330   $aIl volume raccoglie le conclusioni di un lavoro di ricerca che costituisce il naturale quanto autonomo sviluppo dei risultati del progetto MOBILAGE - Mobility and ageing: daily life and welfare supportive networks at the neighborhood level, finanziato nel biennio 2018-2020 da Fondazione Cariplo (Gant N° 2017-0942) e concluso nel giugno 2020.  La questione ageing cities negli ultimi tempi ha assunto la connotazione di vera e propria emergenza soprattutto in ragione dei trend di crescita della popolazione anziana nelle città industrializzate. Il tema, di estrema rilevanza sia nel dibattito scientifico che nella prassi operativa nazionale e internazionale, si configura come una delle sfide/opportunità per ripensare/ridisegnare le città migliorando la qualità di vita degli anziani.  Il gruppo di ricerca impegnato in questo lavoro, sotto la guida di Carmela Gargiulo, è costituito da giovani ricercatori che afferiscono al laboratorio TeMALab del Dipartimento di Ingegneria Civile, Edile e Ambientale (DICEA) dell'Università di Napoli Federico II.
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610   $aAccessibility
610   $aUrban planning
610   $aAgeing cities
610   $aUrban services
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702   $aGuida$b Carmen
702   $aGaglione$b Federica
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