1. The Life Safety Surveyor
How Should I Prepare for the Life Safety Surveyor Documentation Session?
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2. The LSS Document Review
Documents likely to be reviewed include:
Fire system detection and extinguishing test documents
Electrical system test documentation including emergency
generators, battery lights and SEPPS units
Medical gas and vacuum system test results and new
installation certifications
Interim life safety measures policy and documentation
Pre-Construction Risk Assessment (PCRA) policy and
documentation
Statement of Conditions (SOC), unless already reviewed
during the Preliminary Planning Session
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3. The Life Safety Surveyor (LSS)
It is likely that the LSS will arrive with the team on the first or second day, less likely later in the survey
The LSS will be scheduled for at least two days “on-site”, with extra days for >1.5 million square feet and three or more surveyable healthcare occupancy buildings (could be up to 5 days “on-site”!)
The LSS will spend several hours on dedicated documentation review, but much more time on the facility tour
Other responsibilities assigned to the LSS will depend on the survey team member preferences and responsibilities – they will probably conduct the Physical Environment Interview and Emergency Management review
The other survey team members will also observe life safety issues, but not as detailed as the LSS – it is not likely that the nurse and physician will request a ladder and flashlight!
If the LSS observes deficiencies outside of their defined responsibility (example: medical records privacy or medication security), they will report it to the other team members
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4. Healthcare Engineering Consultants
Fire System Tests
Points to Remember:
Every fire system device must be individually inventoried, with each test result documented as “PASS” or “FAIL”
Test records should be sorted by device type, not as a combination of devices, and placed in a binder that is tabbed by each device type
Written test procedures and references to the NFPA standards should be readily available
Documentation should be available to indicate the resolution of all identified deficiencies
A method should be used to track when fire system tests are scheduled and when they have been completed, such as a monitoring grid or “dashboard”
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5. Healthcare Engineering Consultants
Fire System Tests
Points to Remember
The chart on the right indicates the probable order in which the surveyor will review the documentation – put the test records in this order, either in a binder or in folders
The test interval may vary (example: flow devices, fire pump churn tests), depending upon adoption of the CMS “Categorical Waivers”
Be sure to indicate on the documentation (or chart) the NFPA code reference for each test, as required in standard EC , EP 25
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6. Fire System Test Descriptions
Supervisory Devices
Test interval: Quarterly
Be prepared to explain which devices are considered “supervisory” (not including tamper switches!)
Supervisory signals are defined in the 2000 Life Safety Code in section as:
“…monitoring shall include, but shall not be limited to, monitoring of control valves, fire pump power supplies and running conditions, water tank levels and temperatures, tank pressure, and air pressure on dry-pipe valves”
Typically, the surveyor will ask about documented test results for power off and phase loss conditions for the fire pump and low air pressure on dry sprinkler systems
Code Reference: NFPA 72, 1999 edition, Table 7.3.2
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7. Fire System Test Descriptions
Waterflow Devices
Test interval: Quarterly, unless the CMS “Categorical Waiver” has been adopted, which then requires semi-annual tests
Time delay documentation on device activation recommended
“Categorical Waiver” applies to vane-type and pressure switch-type waterflow alarm devices
Code References: NFPA 25, 1998 edition, section without the waiver; NFPA 25, 2011 edition, sections 5.3 and 8.3 with the waiver
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8. Fire System Test Descriptions
Duct Detectors
Test interval: Annually
Must be tested to ensure that the device will sample the airstream
Tests must be in accordance with the manufacturer’s instructions
Physical verification of damper closure and/ or air handler shutdown must performed (EC , EP19) and is required by NFPA 90A, 1999 edition, section 4-4.1
Failure to test and document the damper closure and/ or air handler shutdown will result in a Direct Impact finding
Code References: NFPA 72, 1999 edition, Tables and 7-3.2, and NFPA 90A
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9. Fire System Test Descriptions
Smoke Detectors
Test interval: Annually; Sensitivity: AHJ
Must be tested in place to ensure smoke entry into the sensing chamber and alarm activation
Tests must be in accordance with the manufacturer’s instructions, including type of test smoke and/ or aerosol
Smoke detector sensitivity tests must use a calibrated test method, manufacturer’s approved instrument, or other test method acceptable to the AHJ
Code References: NFPA 72, 1999 edition, Tables and 7-3.2
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10. Fire System Test Descriptions
Off-Premises Transmission Equipment
Test interval: Quarterly
Two tests required:
1. Receipt of signal by off-site “responders” (local fire
department) – Joint Commission requirement
2. Receipt of signal by “receiving station” (can be off-site
stations such as ADT, Simplex, etc. or fire department)
within 90 seconds (reference to NFPA 72)
Code References: NFPA 72, 1999 edition, Tables and 7-3.2
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11. Fire System Test Descriptions
Fire Pumps
Test interval: Annual flow test; weekly churn test
Weekly churn test unless CMS “Categorical Waiver” is
accepted, which requires a monthly test (electric pumps)
Churn test must be activated by dropping water pressure
Electric pump: 10 minute test; Diesel pump: 30 minutes
Annual flow test should include a graph of test results
Code References: NFPA 25, 1998 edition, sections , ; with CMS waiver, NFPA 25, 2011 edition
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12. Fire System Test Descriptions
Main Drain Test
Test interval: Annual
Either test the system low point or all system risers
Perform the test using the following steps:
1. Record the initial static pressure
2. Open the main drain valve, record residual pressure
3. Slowly close the main drain valve
4. Record the time to return to initial static pressure
Changes in the return time indicate possible obstructions
Code References: NFPA 25, 1998 edition, sections and Appendix A-9.2.6
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13. Fire System Test Descriptions
Fire Department Connections
Test interval: Quarterly
Perform and document the following checks:
1. Connections and ID signs are visible and accessible
2. Couplings and swivels rotate smoothly
3. Plugs, gaskets and caps are in place and undamaged
4. Check valve is not leaking
5. Automatic drain valve operates properly
Intended to be outside fire department connections
Code Reference: NFPA 25, 1998 edition, section 9-7.1
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14. Fire System Test Descriptions
Standpipe Waterflow Test
Test interval: Every Five Years
Perform and document the following checks:
1. Flow the system at the highest design pressure to the
hydraulically most remote or highest hose connection
of each standpipe system
2. Consult the local AHJ for the appropriate test location
Code Reference: NFPA 25, 1998 edition, section
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15. Fire System Test Descriptions
Kitchen Extinguishing Systems
Test interval: Semi-annually
Perform and document the following checks:
1. Inspect the extinguishing system and hoods
2. Test all actuation components (pull stations, detectors,
dampers, mechanical and electrical devices, etc.)
3. Replace fusible links and sprinkler heads annually
4. Service and/ or replace detection according to
manufacturer recommendations
Discharge of the system is not required
Code Reference: NFPA 96, 1998 edition, section 8-2
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16. Fire System Test Descriptions
Gaseous Extinguishing Systems
Test interval: Annual
Perform and document the following checks:
1. Inspection and tests (4-1)
2. Clean agent containers (4-2)
3. System hose inspection (1-year), test (5-years) (4-3)
4. System maintenance (4-5)
5. Training of staff who inspect (4-6)
Discharge of the system is not required
Code Reference: NFPA 2001, 1996 edition, section 4-1
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17. Fire System Test Descriptions
Portable Fire Extinguishers
Test intervals: Monthly, Annual and 6-Year
Monthly checks require the following:
1. Proper location, no restriction to access or visibility
2. Instructions for use legible and seals/ indicators OK
3. Fullness determined by “hefting” or weighing
4. Evidence of physical damage and gauge reading
5. Documentation with date/ month/ year/ initials
Annual preventive maintenance required
6-Year extinguisher recharge
Code Reference: NFPA 10, 1998 edition, sections 4-3 and 4-4
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18. Fire System Test Descriptions
Smoke and Fire Dampers
Test intervals: Initially, 1-year and 6 years thereafter
All smoke and fire dampers must be tested initially and
one year after installation
Re-testing is every four years except 6 years for hospitals
Inaccessible dampers should be placed on a PFI with a
6-year timeframe for re-evaluation (document ILSM!)
The 1-year test after installation only applies to dampers
installed after January 1, 2008
Code References: NFPA 80, 2007 edition, section ; NFPA 105, 2007 edition, section 6.5.2
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19. Fire System Test Descriptions
Sliding and Rolling Fire Doors
Test interval: Annual
Test must include proper operation and full closure
Re-setting the release mechanism must be done
according to manufacturer specifications
Fusible links and other release devices must not be
painted or prevented from operating by sealing gaps with
intumescent materials
Code Reference: NFPA 80, 1999 edition, section
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20. Fire System Test Monitoring
Best Practice for Monitoring Compliance
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21. Fire System Test Monitoring
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22. Emergency Power Systems
EC : Emergency Generators
Perform and document weekly generator visual checks Code reference: NFPA 110, 2005 edition, section 8.4.1
Perform and document monthly generator tests with at least 30% of the rated load for 30 minutes
Document that all automatic transfer switches are exercised monthly
Conduct 2-hour annual load bank tests if the 30% load is not achieved and manifold temperatures are not sufficient
If the CMS “Categorical Waiver” is adopted by the hospital, then the 2010 edition of NFPA 110 will require a 1.5 hour annual load bank test with a 50% load for 30 minutes, and a 75% load for 60 minutes
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23. Emergency Power Systems
EC : Emergency Generators
Combining the annual and trienniel tests can be performed by starting the load at 30% of nameplate for the first 30 minutes of the test, then continuing with: 50% of load for 30 minutes; 75% load for 60 minutes, and; any load greater than 30% for the remaining 2 hours
Note: If the CMS “Categorical Waiver” is adopted, then the combined tests require a 50% load for 30 minutes, a 75% load for 1.5 hours and any load greater than 30% for the remaining 2.5 hours
Document the static or dynamic 4-hour trienniel test for all generators
Test fuel oil quality annually per ASTM D-975, unless fuel is consumed from the entire tank over the course of 12 months
Code Reference: NFPA 110, 2005 edition, section 8.3.8
Utilize “Interim Emergency Power Measures” (IEPM) when necessary
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24. Emergency Power Systems
EC : Emergency Battery Lights
Required in all anesthetizing locations (NFPA 70: )
“administration of nonflammable inhalation anesthetic agents
in the course of examination or treatment”
Note: Grandfathering usually permitted in existing OR’s w/o lights
Required in “Level 1 or Level 2 EPS equipment locations”, which is normally interpreted as transfer switch locations (NFPA 110: 7.3.1)
Required in some business occupancies for egress lighting where emergency power is not required or not available (NFPA 101: )
Monthly 30-second push-to-test and annual 90-minute discharge test required for all battery installations, whether for task or egress lighting
Annual battery replacement is acceptable in lieu of 90-minute discharge test, but 10% of lights must be tested for 90 minutes annually, even if the batteries are changed
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25. Emergency Power Systems
EC : Stored Emergency Power Supply Systems (SEPSS)
Standard applies to Level 1 systems (NFPA 111: 4.5.1)
Level 1: “failure of the equipment to perform could result in
loss of human life or serious injuries”
Testing requires:
1. Quarterly functional test (5 minutes or class specification)
2. Annual full-load test for 60% of SEPSS class duration
Note 1: NFPA 111 requires a monthly inspection, quarterly functional test and annual full load test for full class duration for Level 1 systems
Note 2: The Joint Commission references exit lighting, life support ventilation, fire detection and alarm systems, and public communications systems as Level 1 systems, but most are not SEPSS systems, since they are backed up with emergency generators; non-SEPSS UPS systems should be tested per manufacturer specifications
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26. The LSS Documentation Review
EC : Medical Gas and Vacuum Systems
Medical gas and vacuum system preventive maintenance
program is required (facility must define PM) and must include:
- Bulk medical gas and vacuum system components and source valve
- Master signal panels and area alarms
- Automatic pressure switches and shutoff valves
- Flexible connectors and outlets
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27. The LSS Documentation Review
EC : Medical Gas and Vacuum Systems
Testing per NFPA 99 is required for new installation,
modification or repair (cross-connections, purity, pressure)
Main supply valves and area shut-off valves must be
accessible and clearly labeled
Utilize “Interim Medical Gas Measures” (IMGM) when
necessary
Note: Significant changes for testing have been included in NFPA 99, the 2012 edition, but it has not yet been adopted by CMS or the Joint Commission, except for the “Categorical Waiver” tht permits one master alarm monitor location to be a computer
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28. The LSS Documentation Review
EC : Medical Gas and Vacuum Systems
Certification of installers and verifiers per ASSE 6000 series is
required
Medical air quality must meet NFPA 99 requirements below:
Parameter
Limit Value
Pressure dew point
39 degrees F
Carbon monoxide
10 ppm
Carbon dioxide
500 ppm
Gaseous hydrocarbons
25 ppm (as methane)
Halogenated hydrocarbons
2 ppm
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29. The LSS Documentation Review
Medical Gas and Vacuum System PM Recommendations
Note 1: The recommendations provided in the chart to the right are from NFPA 99, the 2005 edition, Appendix C, section 5.2. Tests that are required due to new system installations, renovations or repair are listed in Chapter 5 of NFPA 99
Note 2: Significant changes for medical gas system tests have been added to NFPA 99, the 2012 edition, but have not yet been adopted by either CMS or the Joint Commission, except for the single master alarm panel “Categorical Waiver”
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30. The LSS Documentation Review
Interim Utility System Measures
Best Practice!
Strongly recommended to document that interim measures have been implemented to compensate for utility systems that are taken out of service
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31. Interim Life Safety Measures
Interim Life Safety Measures Requirement
Standard LS from the Joint Commission Accreditation Manual:
“The hospital protects occupants during periods when the Life Safety Code is not met or during periods of construction”
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32. Interim Life Safety Measures
The Interim Life Safety Measures Process Includes the Following Steps:
1. Is an ILSM evaluation required? Y or N
If Yes, does the ILSM evaluation require the implementation of ILSM? Y or N
If Yes, which interim measures apply?
Implement and document the required measures
Note: An interim life safety measures policy must be written and address each of the four steps listed above
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33. Interim Life Safety Measures
Step 1: Is an ILSM evaluation required?
The need for an interim life safety measure evaluation is normally required whenever there is a life safety deficiency that is found, or renovation or construction activities create life safety deficiencies.
Be sure to do an ILSM evaluation for PFI’s!
Include in the ILSM policy “exclusions” for evaluations, such as “routine work orders” or “superficial projects”
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34. Interim Life Safety Measures
Interim life safety measures evaluation exception for “routine work orders or superficial projects that do not impact life safety”
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35. Interim Life Safety Measures
Step 2: Are interim life safety measures necessary, based on the evaluation?
Interim life safety measure “trigger points” include the following:
Egress is compromised, and alternative exits are necessary
Compartmentation is breached,and is considered serious
Part or all of the fire detection or extinguishing system has been taken out of service
“Hot Work” is being performed
Large quantities of combustible materials are present
Other conditions determined by the organization
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36. Interim Life Safety Measures
Check which “triggers” (if any) apply for the project
Add other “triggers, as desired
If none of the “triggers” are marked “Yes”, then no additional action is required
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37. Interim Life Safety Measures
Step 3: Which interim life safety measures apply?
The use of an ILSM “applicability matrix” that helps to determine which interim measures apply is helpful. The matrix can either be “pre-filled” for specific conditions or left blank until the evaluation process occurs. The ILSM policy should describe how the interim measures are selected, based on criteria developed by the hospital
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38. Interim Life Safety Measures
Possible Interim Life Safety Measures Include:
Fire watch
Alternative exit signage
Daily inspection of exits
Temporary, but equivalent fire alarm and detection systems
Additional fire fighting equipment
Temporary, smoke-tight, noncombustible partitions
Increased surveillance of buildings, grounds and equipment
Storage, housekeeping and debris removal practices
Additional staff training for staff who use fire equipment
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39. Interim Life Safety Measures
Possible Interim Life Safety Measures Include (continued):
Additional fire drills
Inspect and test temporary systems monthly
Additional staff training related to the interim measures
Additional training to compensate for impaired fire or building features
Note: Implementation of any or all of the interim life safety measures noted in the list above are based on criteria developed by the hospital and should be listed in the hospital interim life safety measures policy
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40. Interim Life Safety Measures (ILSM)
Applicability Grid Example for Interim Life Safety Measures
Compromise egress X
Breach compartmentation
Impair fire detection, alarm, suppression
Hot work
Large quantities of combustibles
Ensuring Egress
Interim
Measure
Notify Fire Dept
Barriers
Operational LS
Fire equipment
Reduce combust.
Prohibit smoking
Fire drills
Fire watch
Other
Staff training
Surveillance
Deficiency
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41. Interim Life Safety Measures
Example for Interim Life Safety Measures Chart
One or more of the interim measures
listed on the chart may be selected,
based on the scope of the project and the type of deficiency that exists
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42. Interim Life Safety Measures
Step 4: Implement and document the required measures
Whichever interim measures are selected must be implemented and documented
Remember: Failure to implement or document interim life safety measures, when required, can result Contingent Accreditation from the Joint Commission!
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43. Interim Life Safety Measures
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44. Fire Watch Requirements
LS : EP 1
“The hospital notifies the fire department (or other emergency response group) and initiates a fire watch when a fire alarm or sprinkler system is out of service more than 4 hours in a 24-hour period in an occupied building. Notification and fire watch times are documented”
Question: What constitutes when “a fire alarm or sprinkler system is out of service”?
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45. Fire Watch “Decision Grid”
The requirement for a fire watch is determined by the hospital staff. NFPA 101, section A states: “it is not the intent of the Code to require notification of the AHJ for a single non-operating device or appliance”
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46. Healthcare Engineering Consultants
Functional Environment
Issue: Pre-Construction Risk Assessment (PCRA)
Biggest Pitfall: Only ICRA and ILSM are evaluated
Best Practice: Include all seven of the items listed below in the PCRA evaluation
● Noise ● Emergency procedures
● Vibration ● Utility failures
● Air quality ● Interim life safety measures
● Infection control
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47. Infection Control Risk Assessment (ICRA) – Best Practice Grid
Risk Criteria for Infection Control
Type A
Type B
Type C
Type D
Group 1 (lowest) I II
III
Group 2 (medium) IV
Group 3 (medium high)
Group 4 (highest)
Construction Type
Patient Risk
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48. Healthcare Engineering Consultants
Functional Environment
Issue: Documentation of PCRA
Achieving Compliance:
Evaluate measures to reduce risk and minimize the impact of the construction activities
Perform daily monitoring in all construction areas
Use a monitoring checklist
Post required permits, such as hot work, ICRA, above-the-ceiling work, ILSM, etc. on door entrance to construction area
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49. Healthcare Engineering Consultants
Functional Environment
Issue: Pre-Construction Risk Assessment (PCRA)
Best Practice: Include MCRA changes during the project
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50. The Life Safety Surveyor Document Review
Questions?
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