V.Montabonnet - Safety during Hardware Commissioning 18 October 2007 1 Contents  Electrical circuits in the LHC context  Electrical Hazards  Preventions.

Slides:

Advertisements

Similar presentations

Health & Safety Life Book AM ST p. 1 v.01 - Nov. 03, 2011 Isolation Lockout; protect employees during e.g. maintenance and jam clearing! Machine.

Advertisements

Basic safety rules and procedures for controlling hazardous energy

De-energization and Lockout

ELECTRICAL SAFETY / E N V I R O N H & S T R A I N I N G P R O G R A M ELECTRICAL SAFETY OSHA requires that electrical equipment be approved for use and.

Introduction Most accidents are caused by the uncontrolled release of hazardous energy. Many of these accidents can be prevented by proper lock-out/tag-out.

1 Powering Tests and Safety Electrical Safety Hugues Thiesen Power Converter Group.

Controlling Hazardous Energy

Health & Safety Life Book AM ST p. 1 v.01 - Nov. 03, 2011 Isolation “Imagine yourself performing maintenance inside of a machine and suddenly,

Electrical Safety INSTRUCTOR’S NOTES:

Electrical Safety. Defective Insulation To protect you, electrical wires are insulated by a plastic.

Electrical Installation 2

Lock-Out / Tag-Out Types of Energy Types of Energy Electrical Electrical Mechanical Mechanical Chemical Chemical Thermal Thermal Hydraulic Hydraulic.

Electrical Safety INSTRUCTOR’S NOTES:

1 Copper Stabilizer Continuity Measurement Project CSCM Mini Review Powering Implementation H. Thiesen 30 November 2011.

ESTW/ Castor The company has to take care that: Equipment and switchgears are operated according relevant standards The errection, extension and maintenance.

Copyright  Progressive Business Publications Electrical Safety.

Electricity. Electricity Electric shock happens when a person becomes part of an electrical circuit and the current flows through their body. When an.

Chamonix Risks due to UPS malfunctioning Impact on the Superconducting Circuit Protection System Hugues Thiesen Acknowledgments:K. Dahlerup-Petersen,

HC Review, May 2005 Hardware Commissioning Review Hardware Commissioning Review Quality Assurance and Documentation of Results Félix Rodríguez Mateos,

The organization and on-site follow up of the electrical installation work for the LHC The organization and on-site follow up of the electrical installation.

Pennsylvania Bureau of Deep Mine Safety Lockout/Tagout Program.

AT-MEL-PM, R. Denz, CERN, CH-1211 Geneva 23 1 QPS system and its risks  Principal risks  General remarks  Quench heater circuits  Quench detection.

ESRF PSG safety for equipment and personal related to power converters 2 nd POCPA 15th of June 2010 Jean-François Bouteille.

First Draft Language (B) Service Equipment. In addition to the requirements in (A), service equipment shall contain the following information: (1)

MPE Review – June 2, 2015 A. Erokhin, TE-MPE-EE Upgrade, IST and Powering tests of the Upgrade, IST and Powering tests of the 600A Energy Extraction Systems.

Basic Lockout Guidelines

Review of the operation scenarios and required manning of the activities P. Schnizer and L. Serio.

Review of Sector th of February Electrical Safety for the interventions during Hardware Commissioning of LHC Anne Funken, TS-ICC.

Power Converters and DC cablesSlide 1/.. LHC - HC review Hugues THIESEN – AB/PO Thursday, 12 May 2005 Water cooled cables warm bus bars power converter.

TE/MPE activities currently planed for YETS Reiner Denz, Knud Dalherup-Petersen, Markus Zerlauth & Bruno Puccio YETS coordination meeting.

BCWG - 16/11/20102 Content WHY do we need a HW Commissioning campaign? WHAT are we going to do? HOW are we going to do it? ElQA QPS Powering Tests Planning.

SAFETY DURING HARDWARE COMMISSIONING, 18 October 2007, D. Bozzini, AT/MEL-EM 1 Safety during Hardware Commissioning Davide Bozzini on behalf of the ELQA.

Electrical Safety, Subpart K

Fermilab AD E/E Support Department Fermilab’s Experience in Applying OSHA and NFPA 70E Requirements in Accelerator Power Supply Systems NFPA 70E Standard.

Superconducting Technologies for the Next Generation of Accelerators CERN, Globe of Science and Innovation 4-5 December Superconducting Links for the Hi-Lumi.

Review of Sector th of February Tunnel Access During Powering Tests Hugues Thiesen, AB-PO.

CERN Jan 2006 Specific safety Issues for 2006 compared to 2004 P. Cennini AB Safety Requirement in case the Installation activities are going on.

Training LHC Powering - Markus Zerlauth Powering Interlocks Markus Zerlauth AB/CO/MI.

Closing session Issues and questions from the audience and some from me Rüdiger Schmidt.

Electrical Work Practices City of Council Bluffs Presented by: SilverStone Group © 2012 Zywave, Inc. All rights reserved.

CSCM (Thermal Amplifier) Sequence and detailed planning 07/10/2011 M.Solfaroli Thanks to: K.Brodzinski, G.D’Angelo, M.Koratzinos, M.Pojer, R.Schmidt, J.Steckert,

Lock out / Tag Out The Control of Hazardous Energy.

Chapter 3 PHYSICAL INJURY AND CONTROLS 3.2 Electrical Safety

LOCK-OUT/TAGOUT SAFETY SAFELY MAINTAINING EQUIPMENT AND MACHINES.

Training LHC Powering – Blanca Perea Solano From Individual System Tests to Powering to Nominal Blanca Perea on behalf of Hardware Commissioning Coordination.

Hardware Commissioning Review, R. Denz, 12-May Superconducting circuits: what remains to be done during hardware commissioning R. Denz AT-MEL-PM.

Electrial Safety LS2 days November 2016 AP

SAF603S Switching of Electrical Equipment 6/23/2017 Revision 3.

PSB Lock Out Test, Follow-Up AP. Bernardes-/EN-STI, K

AUTOMATIC STREET LIGHT CONTROL USING LDR

Powering LHC magnets version 30/3/2007.

Powering the LHC Magnets

MPE main activities planned for LS2

Survey on “Chargés de Consignation” Follow-up

Electrical Safety Equipment

Agenda Contents Different types of documents

Business opportunities related to CERN electrical network

Personal Protective Equipment

+ many slides from various colleagues (KH, Rudiger, Paul, …)

Control of Hazardous Energy

Presented by Environmental Health and Safety

Brief report of the hardware commissioning activities

Commissioning of the LHC superconducting magnets systems: Why an LHC Hardware Commissioning? Specificity and complexity of this machine Roberto Saban.

Hardware Commissioning

Circuit Disconnector Boxes Implementation of our safety first policy

Powering and Safety day Underground access during powering tests

Review of hardware commissioning

Presentation transcript:

V.Montabonnet - Safety during Hardware Commissioning 18 October Contents  Electrical circuits in the LHC context  Electrical Hazards  Preventions  Safety Training  Habilitation  Consignation  Flowchart for LHC work

V.Montabonnet - Safety during Hardware Commissioning 18 October LHC Electrical Circuit DFB EE system AC DC AC DC QHPS 18kV 18kV / 400V 400V 400V [UPS] Water EE system QHPS Power Converter Power Converter  Power converters supply:  Cold circuits: UA, RR, UJ [High Current]  Warm Circuits: SR [High Voltage] Cold Circuits

V.Montabonnet - Safety during Hardware Commissioning 18 October Electrical Hazards  Electrical shock due to contact with energized piece AC side  18kV for the Main Dipole and Warm Magnet converters  400V for all the other converter types  400V UPS for the Electronics of the high current converters (> 2kA) DC side (Differential Voltage)  Up to 950V for the warm magnets  180V for the Main Dipole Converter during a ramp  < 20V for all the other converters AC DC Power Converter

V.Montabonnet - Safety during Hardware Commissioning 18 October Electrical Hazards  Electrical shock due to contact with energized piece DC side (Common Mode Voltage)  Common mode of 10V in normal operation  Voltage / Earth could be high during Energy Extraction with additional resistor EE system 700 mOhms AC DC Power Converter 10V 550A 385V 395V 385V

V.Montabonnet - Safety during Hardware Commissioning 18 October  Burn due to short-circuit or opening of the load with current Huge amount of energy stored in the superconducting magnets Main Dipole: 15.7 Henrys – 11.85kA = 1.1 GJ  BE CAREFUL !!! Zero Voltage doesn’t mean Zero Current Converter OFF but still current in the circuit Very long time constant: 4 hours for Main Dipole Electrical Hazards AC DC Power Converter -0.2V 11.85kA Example: 1Q converters after FASTPA, OFF

V.Montabonnet - Safety during Hardware Commissioning 18 October Preventions  Prevention against accidental contact Signalization Grills added for the protection of the converter DC outputs Converter rack protection  Doors, panels added  Rack closed for the main dipole transformer

V.Montabonnet - Safety during Hardware Commissioning 18 October Voltage Range / UTE C Very Low Voltage Low Voltage High Voltage TBT S,P,F BTABTBHTAHTB DC side 0 120V 750V 1500V 75kV 0 50V 500V 1000V 50kV AC side TBTF: Très Basse Tension Fonctionnelle Most of converters TBT - Dipole - Circuits with Extraction Energy Resistor - Warm Magnets BTA - Warm Magnets BTB BTA Most of converters HTA - Dipole - Warm Magnets

V.Montabonnet - Safety during Hardware Commissioning 18 October Energized piece Voltage Range / UTE C  Conclusion / UTE C : BT domain even for DC output with low voltage (<10V) Rules to apply  BT: Minimal distance from energized pieces >30cm if not contain in IP2X envelope Ø 12mm Envelope IP2X Definition

V.Montabonnet - Safety during Hardware Commissioning 18 October LHC Safety Training  LHC Machine Not considered as a “Local Electrique” / UTE C Safety Training “Level 4” mandatory:  BUT, not all the equipments are IP2X at the moment “ Keep away from electrical installations. Minimum distance is 50 cm.” LHC machine safety training (level 4) RRTunnel: DFB, Current Lead

V.Montabonnet - Safety during Hardware Commissioning 18 October Habilitation: for who ? Electrical Work ? Near energized electrical piece ? Under the supervision of trained person ? “Electrical Worker” for measurement maintenance reparation modification “Chargé de Travaux” “Chargé d’Intervention” “Chargé de Consignation” No Habilitation Habilitation for Non Electrical Worker B0 Habilitation for Electrical Worker B1, B2, BR, BC Yes No Yes BT <30cm

V.Montabonnet - Safety during Hardware Commissioning 18 October Habilitation: Actors B2 B1 B0 BC BR “Chargé de Travaux” B2 “Chargé d’ Interventions” BR Supervise on the field - the work planned Ex: extension, modification - the “intervention” Ex: reparation, measurements Ensure his own safety and the safety of people under his supervision “Exécutant électricien” B1 Execute electrical work Responsible for his own safety “Exécutant non électricien” B0 Execute or supervise non electrical work Habilitation not mandatory if all electrical hazards have been removed “Chargé de Consignation” BC Execute or get execute the consignation or part of it ATAT ATAT ACAC ACAC

V.Montabonnet - Safety during Hardware Commissioning 18 October )Separate the equipment from its electrical sources 2) Lock in open position the separation devices 3)Identify the equipment 4) Check that the voltage is zero Earth and short-circuit (not mandatory in BT) Consignation: Principle 1 ère étape de consignation On the work area 2 nde étape de consignation

V.Montabonnet - Safety during Hardware Commissioning 18 October Procedure: Première Etape de Consignation related to Power Converters Procedure for any work of disconnection of warm parts of the superconductive circuits of LHC: Safety Aspects Consignation in 2 steps RequestConsigne RPHE.UA83.RQD.A78 converter & Measure I=0 on DFBAO.7L8 Chargé de Travaux 1 ère étape de consignation Separate the converter from AC sources Chargé de Consignation C.C. [AB-PO for power converter] Lock in open position On the field 2 ième étape de consignation Identify the converter: To be sure that the work will be done on the correct equipment Chargé Travaux working pointChargé Travaux Chargé Consignat. [AB-PO] V=0, Earthing & Short-circuitChargé Travaux Work can start under the responsability of the « Chargé de Travaux » under safe conditions ACAC ACAC

V.Montabonnet - Safety during Hardware Commissioning 18 October Work Flowchart in LHC Context ChargéTravaux I HAVE A JOB TO ORGANIZE ON POTENTIALLY DANGEROUS INSTALLATION. I AM RESPONSIBLE FOR MY TEAM SAFETY C.T. JOB WAS DONE IN SAFE CONDITIONS. FOLLOW STEPS  EASIER & SAFER ANALYSE HAZARDS: ELECTRICAL & OTHERS ~~~~~~ ~~~~~ ~~~…. ~~~~~~ ~~~~~ ~~~…. ~~~~~~ ~~~~~ ~~~…. ~~~~~~ ~~~~~ ~~~…. AB/PO ~~~~~~ ~~~~~ ~~~…. ~~~~~~ ~~~~~ ~~~…. ~~~~~~ ~~~~~ ~~~…. ~~~~~~ ~~~~~ ~~~…. AT/MEL Where What ? Mr Circuit C.T. E.I.CPt Owner 01 C.T. OK! PLAN WITH POINT OWNER AND / OR E.I.C C.T. © OK! E.I.C Pt Owner When ? 02 REQUEST 1 ère ETAPE DE CONSIGNATION C.T. AT/MEL © AB/PO © 03 CONSIGNE 1 ère ETAPE AB/PO © 04 DELIVER ATTESTATION BACK TO C.T. AB/PO ©©©©©© ©©© ©©©©©© C.T. ©©©©©© 05 DO INTERVENTION IN SAFE CONDITIONS OK! Work! El.Ex. Non El.Ex. C.T. ©©©©©© ©©©©©© 07 REMOVE MISE A LA TERRE C.T. ©©©©©© ©©©©©© 08 DECONSIGNE & INFORM EIC & P.OWNER AB/PO E.I.C Pt Owner Done ! AB/PO ©©© ©© 10 GIVE BACK YELLOW FORM Job Done. C.T. ©©© © AB/PO ©©© ©© 09 CONSIGNE 2 ème ETAPE V=0VI=0A  VAT  VAI  MALT  IDs C.T. ©©©©©© ©©©©©© 06 AB/PO

V.Montabonnet - Safety during Hardware Commissioning 18 October Documents  Documents: Attestation de 1 ère Etape de Consignation Autorisation de Travail ATAT ATAT AC

V.Montabonnet - Safety during Hardware Commissioning 18 October

V.Montabonnet - Safety during Hardware Commissioning 18 October Attestation Première Etape Consignation Form Bon pour Accord: EiC DUPONT Dep/Group Convertisseur: RPHE.UA83.RQF.A78 DURAND Le chargé de travaux s’engage à réaliser la vérification d’absence de courant au niveau de la DFBAO avec le support d’AB-PO CC CT DUPONT Dep/Group DURAND à 10h CC CT Déconnexion des câbles DC au niveau de la DFBAO du circuit RQF.A78

V.Montabonnet - Safety during Hardware Commissioning 18 October Autorisation de Travail Form