1. CLIC CES Webex 12 Nov. 2008 Summary: – Set of fire safety measures defined in CERN Safety Report – Proposed Structure for CLIC/ILC Fire Safety Report Fabio Corsanego Fire Safety CERN-SC

2. Structure of the safety report The Safety Report is subdivided in several parts.. Description of the hazards (non mitigated yet) Measures to mitigate the hazard: – Prevention A Design B Organization – Protection C Design D Organization

3. “Low fire load” in the tunnels Fire radiologic risk localized in few specific points (collimators, experiments) Basic Assumptions

4. A) Prevention- design (1) 2 m/s Subdivision into ventilation sectors Possibility to increase ventilation flow in the tunnel ( to 2 m/s)

5. A) Prevention –Design (2) Pressurized access shafts P>0 Fire Rated 2 hrs

6. A) Prevention-design (3) All zones with “periodic access” have multiple way out Evacuation system Automatic Fire detection in areas with relevant fire load

7. A) Prevention- design (4) Electric Vehicles for Fire Brigade Areas with large fire loads have internal hydrants Warm magnets are interlocked with thermal detection

8. B) Prevention-organization (1) Temporary storage of combustibles forbidden Regular maintenance of the automatic detection system Fire Brigade has materials and resources adapted to the hazards.. Hot work permits No smoking facility

9. C) Protection -design Fire retardant no halogen cables and plastics Emergency call points every 60m with evacuation buttons and phones Emergency light and signs Foam system in the cavern

10. D) Protection - Organization Fire brigade has intervention procedures including smoke extraction Manual fire fight means (extinguishers, hydrants, are localized where there is large fire load) Training for workers Self rescue breathing devices

11. Resume’ The combustible amount is low, exception made for about 90 locations. A large fraction of this combustibles burn with difficulty The fire risk has been judged moderate Experiments have foam deluge systems Residual risk: If a fire happens underground people will have to reach an exit located, at worst, at 2.5 km distance Breathing device to assist for 30 minutes in the smoke Potentially a relevant fire damage to equipment In case of fire, fire brigade will try to reach the spot (can take 60* minutes) an initiate fire fight with manual extinguishers or, in few locations, with hydrants The ventilation can be increased to help to reach the spot

12. T=0: fire and smoke starts travelling in tunnel t-=~ 20 min: smoke is detected; Fire Brig. Alerted T=~25 min: the machine stopped; Fire truck on the way T=~35 mins: Smoke could reach outside if not filtered T=~40 mins Fire truck on surface T=~50 mins Fire twin underground (if RP ok) T=~65 mins Fire Twins reaches the fire (if air is still sufficient) T=~70 fire twins air is maybe over and have to be changed And so on

13. Proposed strategy for ILC-CLIC No reference codes yet, but we should have at least 2 objectives: Protect life= reach a safe area leading outside in less that 2-3 minutes Protect property= damage contained to less that ?x (value should be indicated here)? in case of accident

14. Proposed Structure for Fire Safety Report INTRODUCTIVE NOTES Reference Codes for Fire Prevention Description of the facility from the fire Safety Point of View DESIGN CONDITIONS: Characteristics of the Occupants Ability and Resources of the Fire Service Special Hazards in case of Fire, and Emergency Plan Fire Load MEASURES TO PREVENT THE INSURGENCY OF A FIRE Properties of the Combustible Materials Protection against Electric Faults Lightning Protection Worksite Organization (fire permits etc, work coordination)

15. ESCAPE IN THE EVENT OF A FIRE Escape Strategy Type of Stairways and Access Ways Internal evacuation pathways Travel Distance to Reach an Exit Doors Access Control Locking Guidance Signs for escape Emergency Lighting Evacuation Alarm Communication Devices PROTECTION AGAINST THE SPREAD OF FIRE BETWEEN COMPARTMENTS Subdivision into Fire Compartments Fire Resistance Class of Structural and Non-structural Elements Separating the Fire Compartments: Technical rooms on surface

16. FACILITIES FOR FIREFIGHT: Access routes for the rescue service: Fire gas ventilation; Equipment for Manual Fire Fighting: Communication Systems; HEATING, VENTILATION AND AIR CONDITIONING (HVAC), and SMOKE EXTRACTION General aspects common to the whole facility Commands (stop and activation) for the ventilation and smoke extraction system Fire protection construction of plant rooms and shafts Protected Access Shaft TUNNEL and Transfer line VENTILATION Exepriment Hall Ventilation and Smoke Extraction

17. FIRE PROTECTION INSTALLATIONS Automatic fire detection Evacuation alarm system Automatic Fire suppression Systems