ICALEPCS2013 - List of Authors (Chapuis, D.)

Paper

Title

Page

Refurbishing of the CERN PS Complex Personnel Protection System

234

P. Ninin, D. Chapuis, F. Chapuis, Ch. Delamare, S. Di Luca, J.L. Duran-Lopez, T. Hakulinen, L. Hammouti, J.-F. Juget, T. Ladzinski, B. Morand, M. Munoz-Codoceo, E. Sanchez-Corral Mena, F. Schmitt, G. Smith, R. Steerenberg, F. Valentini
CERN, Geneva, Switzerland

In 2010, the refurbishment of the Personnel Protection System of the CERN Proton Synchrotron complex primary beam areas started. This large scale project was motivated by the obsolescence of the existing system and the objective of rationalizing the personnel protection systems across the CERN accelerators to meet the latest recommendations of the regulatory bodies of the host states. A new generation of access points providing biometric identification, authorization and co-activity clearance, reinforced passage check, and radiation protection related functionalities will allow access to the radiologically classified areas. Using a distributed fail-safe PLC architecture and a diversely redundant logic chain, the cascaded safety system guarantees personnel safety in the 17 machine of the PS complex by acting on the important safety elements of each zone and on the adjacent upstream ones. It covers radiological and activated air hazards from circulating beams as well as laser, and electrical hazards. This paper summarizes the functionalities provided, the new concepts introduced, and, the functional safety methodology followed to deal with the renovation of this 50 year old facility.

Poster MOPPC059 [2.874 MB]

MOPPC061

Achieving a Highly Configurable Personnel Protection System for Experimental Areas

238

F. Havart, D. Chapuis, R. Nunes, D. Vaxelaire
CERN, Geneva, Switzerland

The personnel protection system of the secondary beam experimental areas at CERN manages the beam and access interlocking mechanism. Its aim is to guarantee the safety of the experimental area users against the hazards of beam radiation and laser light. The highly configurable, interconnected, and modular nature of those areas requires a very versatile system. In order to follow closely the operational changes and new experimental setups and to still keep the required level of safety, the system was designed with a set of matrices which can be quickly reconfigured. Through a common paradigm, based on industrial hardware components, this challenging implementation has been made for both the PS and SPS experimental halls, according to the IEC 61508 standard. The current system is based on a set of hypotheses formed during 25 years of operation. Conscious of the constant increase in complexity and the broadening risk spectrum of the present and future experiments, we propose a framework intended as a practical guide to structure the design of the experimental layouts based on risk evaluation, safety function prescriptions and field equipment capabilities.

Poster MOPPC061 [2.241 MB]

Paper	Title	Page
MOPPC059	Refurbishing of the CERN PS Complex Personnel Protection System	234
	P. Ninin, D. Chapuis, F. Chapuis, Ch. Delamare, S. Di Luca, J.L. Duran-Lopez, T. Hakulinen, L. Hammouti, J.-F. Juget, T. Ladzinski, B. Morand, M. Munoz-Codoceo, E. Sanchez-Corral Mena, F. Schmitt, G. Smith, R. Steerenberg, F. Valentini CERN, Geneva, Switzerland
	In 2010, the refurbishment of the Personnel Protection System of the CERN Proton Synchrotron complex primary beam areas started. This large scale project was motivated by the obsolescence of the existing system and the objective of rationalizing the personnel protection systems across the CERN accelerators to meet the latest recommendations of the regulatory bodies of the host states. A new generation of access points providing biometric identification, authorization and co-activity clearance, reinforced passage check, and radiation protection related functionalities will allow access to the radiologically classified areas. Using a distributed fail-safe PLC architecture and a diversely redundant logic chain, the cascaded safety system guarantees personnel safety in the 17 machine of the PS complex by acting on the important safety elements of each zone and on the adjacent upstream ones. It covers radiological and activated air hazards from circulating beams as well as laser, and electrical hazards. This paper summarizes the functionalities provided, the new concepts introduced, and, the functional safety methodology followed to deal with the renovation of this 50 year old facility.
	Poster MOPPC059 [2.874 MB]

MOPPC061	Achieving a Highly Configurable Personnel Protection System for Experimental Areas	238
	F. Havart, D. Chapuis, R. Nunes, D. Vaxelaire CERN, Geneva, Switzerland
	The personnel protection system of the secondary beam experimental areas at CERN manages the beam and access interlocking mechanism. Its aim is to guarantee the safety of the experimental area users against the hazards of beam radiation and laser light. The highly configurable, interconnected, and modular nature of those areas requires a very versatile system. In order to follow closely the operational changes and new experimental setups and to still keep the required level of safety, the system was designed with a set of matrices which can be quickly reconfigured. Through a common paradigm, based on industrial hardware components, this challenging implementation has been made for both the PS and SPS experimental halls, according to the IEC 61508 standard. The current system is based on a set of hypotheses formed during 25 years of operation. Conscious of the constant increase in complexity and the broadening risk spectrum of the present and future experiments, we propose a framework intended as a practical guide to structure the design of the experimental layouts based on risk evaluation, safety function prescriptions and field equipment capabilities.
	Poster MOPPC061 [2.241 MB]