Page 313 - Pipeline Risk Management Manual Ideas, Techniques, and Resources

P. 313

13/290 Stations and Surface Facilities
Table f3.17 Station risk variable-nt'd
Product--chemical additives used soil aggressiveness
Product--chronic hazards soil chlorides
Product-conductivity (dissolved solids) soil corrosivity
Product-contamination soil MIC potential
Product4ensities soil moisture content
Product4issolved gases (CO,, H,S, 0,) soil permeability
Product-H, (heat of combustion) soil pH
Product-NFPA product ratings soil sulfates
Product-pH soil type
Product-RQ ratings spark generation potential
Product-suspended solids SRB induced corrosion--extemal
Product-type SRB induced corrosion-internal
Product-vapor pressure station effective surface area
public awareness-advertisement impact station equipment countlsizeshplcomplexity
public awareness-door-to-door station personnel monitoring frequency and duration
public awareness-mailouts station piping countlvolume
public awareness-meet with local responders station size (area, volume)
public awareneso-overall effectiveness station staffing level
public awareness-public forums effectiveness station subsurface drain with skimmer-alarmed
public awareness-public officials meetings station subsurface drain with skimmer-monitored
pump bearing temp shutdown station-number of block valves
pump criticality for product movement station-number of buried mechanical connectors
pump high flow shut down substance abuse program
pump inspection frequency and effectiveness successive reaction potential
pump mechanical safety systems successive reactions-barriers
pump motor type successive reactions--overall susceptibility
pump overpressure shut down successive reactions-potential force
pump overvoltage, current shutdowns successive reactions-probability
pump pressure/volume successive reactions-separation distances
pump product temperature shutdown sump safety systems
pump pulsation dampers sumps-product retention time
pump seal flush lines supervision of excavation sites
pump seal leak potential surface runoff retention and analysis
pump seal secondary containment surge potential
pump seal secondary seal surgepreventions
Pump type tank capacities
pump vibration monitoring tank condition (dents, buckling, level, thinning, etc.)
rails-strong barriers against traffic tank design--API 650,653
rails-weak tank design-bolted
relief valvesaesign verifications tank design-proper venting, MI 650
restricted access provisions tank design-rivets
risk management program / PHA tank design--roof supports
sabotage potential tank design-vacuum collapse potential
sabotage susceptibility tank design-welded
sabotage-physical preventions tank fill levels
sabotage-prior attacks or threats tank foundation-asphalt ring
sabotage-regional instability tank foundation-zoncrete pad
sabotage-social preventions tank foundation-concrete ring
safety factors tank foundation-gravel
safety program tank foundation--sand
safety systems-adequacy tank mixer-fixed angle
safety systems-calibration/majntenance tank mixer-variable angle
safety systems-fail safe strategies tank--age
safety systemsinspectiodcalibratiodmaintenance tank-API 653 inspection
safety systemolevels of redundancy tank-bottom external corrosion prevention
safety systems--ownership tank-bottom inspection, floor scan
satellite imaging tank-bottom inspection, mag, dye
SCADA control tank-bottom inspection, vacuum weld test
SCADA monitoring tank-bottom inspection, visual
SCC tank-bottom liner agekondition
secondary contairment tank-bottom liner desigdinstallation
security for critical equipment (locks, chains, etc.) tank-bottom liner type (thick or thin)
security measures, miscellaneous tank-bottom wall thickness
shorelineshiverbanks nearby tan!-bottom corrosion monitoring central point
signs tank-bottom corrosion monitoring perimeter points
smoke detection tank-crackmg inspections

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