Historical applications of firewater pumping systems



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Firewater Pumps at Industrial Facilities
Estimation of emissions of volatile organic vapors

partitions,
91
passive systems,
10
PCVs (pressure control valves),
69
performance testing see testing periodic performance tests,
140–1
,
142
,
143
,
144
petro-chemical industry,
14–15
,
161
philosophy of protection,
9–12
Piper Alpha disaster (1988),
62
,
75–6
,
124
,
161
piping arrangements:
codes,
77
drawings,
119–20
exhaust systems,
98–9
flow testing,
71–2
horizontal split case pumps,
59
,
60
metallurgy,
6
multiple pumps,
66
vertical split case pumps,
59
,
60
Piping and Instrumentation Drawings (P &
IDs),
119–20
pitot tubes,
172
PIVs (post-indicator-valves),
69
planning,
36
,
155
plant in peril,
130
plate flow meters,
71
,
72
PLC (Programmable Logic Controller),
119
pond water supplies,
26
portable pumps,
53
positive displacement pumps,
43–4
,
49
post-indicator-valves (PIVs),
69
power transmission,
89–111
,
115
Index
181

‘‘pre-fire’’ plans,
155
pressure:
backpressure,
98
exhausts,
98
gages,
70–1
maximum working pressure,
171
negative pressure,
16
overpressure,
66–7
pump output,
59
range,
38
recorders,
71
reducing valves,
172
tanks,
29
pressure control valves (PCVs),
69
pressure safety valves (PSVs),
66–8
pressure switch activation,
118
private water mains/supplies,
29–30
process area / pumping system separation,
60–2
process emergency control measures,
9
Programmable Logic Controller (PLC),
119
protection philosophy,
9–12
protective guards,
153
PSVs (pressure safety valves),
66–8
public water mains,
5–7
,
19
,
29–30
pump:
definitions,
1
,
172
see also firewater pumps pump curve test points,
44–5
,
141
pump drivers see drivers pumping system / process area separation,
60–2
pump lift columns,
64
pump rooms,
63
pump suction screens,
35
purchase data,
163–4
purging mechanism,
136
Q
quality control,
160
,
172
R
rated pump capacity,
172
rated pump pressure,
172
rating,
135
,
172
raw seawater supplies,
30
,
124
readout displays,
119
recalibration:
relief valves,
67–8
reciprocating pumps,
1–2
,
3
,
44
reciprocating steam engines,
4–5
refinery major incidents,
160
,
161
reinforced fiberglass pipes,
6–7
reliability,
125–30
relief valves (RV),
66–9
,
172
remote activation,
113
,
118
remote alarms,
116
reserve water supplies,
22–3
reservoirs,
26–8
residual pressure requirements,
16–17
retrofit improvements,
51–2
Reynolds, Osborne,
4
right angle gear drives,
101–5
riser corrosion,
85
risk areas,
10
,
14–15
,
20
,
172
risk assessment,
11
river water supplies,
26
Romans,
2
Romeoville refinery major incident,
161
roofs,
63
,
82
rotary gear pumps,
49
rotary pumps,
3–4
,
43–4
,
49
see also centrifugal pumps rotation of firewater pumps,
66
runoff reservoirs,
27
RV (relief valves),
66–9
,
172
S
safety guards,
153
safety precautions,
137–8
salinity,
25
sand contamination,
65
,
86
Savery, Thomas,
4
Seadrift major incident,
160
seawater pumps,
83
seawater supplies,
25–6
,
30
,
32
,
124
security,
156
seismic activity,
65–6
semi-submersibles,
30
,
46
separation of firewater pumps,
60–2
sequence pump starting,
172
service factor,
172
service pumps,
31
shafts:
centrifugal pumps,
171 182
Index
construction materials,
86
diesel-driven line pumps,
8
failure prevention,
107
hollow,
171
rotation,
103
turbine pumps,
7
,
40
,
125
,
174
shallow water platforms,
7
,
8
ships,
29
see also boats shutdown,
116
,
123–4
,
134
shutdown panels,
116
shutdown valves,
134
shutoff pressure,
172
signage,
151–2
,
153
,
154
single point failures (SPF),
126
,
128
,
172
single stage arrangements,
42
single stage pumps,
172
site acceptance tests,
139–40
skid pump units,
50–1
sliding vane pumps,
44
sodium hypochlorite injection,
35
,
36
software modeling programs,
78–9
spacing distances,
60–1
spark arrestors,
134
specialized installations,
124
special locations,
63–6
specification sheets,
163–4
specific speed,
142
,
145
splash shields,
91
,
172
splash zones,
83
,
84
spray systems,
10
,
11
sprinkler systems,
59
,
81
stagnant water,
85
standards:
API Standard 610,
53
company policies,
12
fire protection,
55–8
ISO 9000 series,
160
pump construction,
53
quality assurance,
160
standby pumps,
45–6
,
49
starting batteries,
96–7
starting systems:
engines,
96
startup,
78
,
113
,
117–18
,
123
,
152–3
static pressure,
30
static water level,
173
steam-driven fire pumps,
3–4
steam turbines,
100–1
steel pipes,
6
storage tanks:
water,
28–9
strainers,
74–5
stuffing box packing,
173
submerged pump intake openings,
75–6
submersible pumps,
7–8
,
91
,
107
,
129
,
173
Submittals and Approvals form,
156
,
157
suction pits,
173
suction pressure gages,
70
suction screens,
35
sunlight exposure,
65
supplemental checks,
149–50
supply see water supplies suppression requirements,
16
surface water supplies,
25
surge effects,
77–8
switches,
74
,
116
,
118
,
169
T
tachometers,
99
,
145
tamper switches,
74
task lighting,
80–1
TDS (total dissolved solids),
33
test gage accuracy,
145
testing,
137–50
additional tests,
150
basic procedure,
148–9
controllers,
146–7
driver rpm correction factors,
150
driver speed,
142
,
145
factory acceptance tests,
138–9
foam pumps,
147–8
forms,
143–4
,
145–6
,
147
fuel storage/supply,
141–2
,
149–50
generic procedure,
148–9
hazards,
137–8
health and safety,
137–8
interface,
146–7
maintenance aspects,
150
periodic performance tests,
140–1
,
142
,
143
,
144
pump curve test points,
44–5
,
141
pump test requirements,
142
safety precautions,
137–8
site acceptance tests,
139–40
specific speed verification,
142
,
145
supplemental checks,
149–50
Index
183
test gage accuracy,
145
weekly tests,
145–6
,
147
test line drainage,
72
Texas, major incidents,
160
,
161
‘‘tilted parting’’, horizontal split case pumps,
39
torsional vibration analysis (TVA),
79–80
,
173
total discharge head,
173
total dissolved solids (TDS),
33
total head,
173
total suction head,
173
total suction lift,
173
training,
156
transfer switches,
116
tropical locations,
65
true static pressure,
30
turbine pump classification,
42–3
TVA (torsional vibration analysis),
79–80
,
173
types of firewater pumps,
37–53
U
UBC (Uniform Building Code),
13
UFC (Uniform Fire Code),
13
‘‘Uncle Joe Ross’’ fire engine,
3
Unconfined Vapor Cloud Explosion (UVCE),
60
,
130
underground reservoirs,
26–7
underwater diving operations,
75–6
‘‘Underwriters duplex’’,
5
Underwriters’ Laboratories, Inc.,
58
Uniform Building Code (UBC),
13
Uniform Fire Code (UFC),
13
United States:
fire engines,
3–4
municipal waterworks,
6
,
7
steam engines,
4–5
up and downthrust,
173
utility services,
31–2
,
81
utility water systems,
31–2
UVCE
see Unconfined Vapor Cloud
Explosion
V
valves,
66–9
,
72–4
,
95
,
134
,
172
vapor cloud explosions,
60
,
130
vapor pressure,
173
variable speed pressure limiting control,
173
variances:
public water mains,
29
velocity head,
174
velocity inline pumps,
174
ventilation,
81
,
99
vertical inline pumps,
39
vertical shaft rotation,
103
vertical shaft turbine pumps,
7
,
40
,
125
,
174
vertical split case pumps,
59
,
60
vertical turbine pump discharge head,
101
,
102
vibration analysis (TVA),
79–80
,
173
viscosity,
174
volute pump classification,
42–3
vortex plates,
76
,
174
vortices,
76
W
warning signs,
153
,
154
water hammer effects,
77–8
,
174
water mist pumps,
47
water pumping plants/mains,
5–7
,
19
,
29–30
water quality,
32–3
water spray/sprinkler systems,
10
,
11
,
16
,
59
,
81
water supplies:
aquatic growth control,
34–6
chemical enhancements,
33–4
contamination,
26–7
,
31
,
32–3
corrosion,
26–7
,
32–3
development,
36
duration,
19–23
emergency supplies,
32
firewater/utility systems,
31–2
marine growth control,
34–6
non-fire fighting usage,
31–2
plans,
36
primary supplies,
19–22
public mains/plants,
5–7
,
19
,
29–30
quality of water,
32–3
reserve supplies,
22–3
services usage,
31
sources,
25–36
storage tanks,
28–9
usage by other services,
31–2
utility systems,
31–2 184
Index
water quality,
32–3
water tanks,
28–9
WCCE (Worst Case Creditable Event),
20
weekly tests,
145–6
,
147
well water supplies,
26–7
wetting agents,
33–4
wind direction,
61
wooden logs/pipes,
5
,
6
workboats,
64
Worst Case Creditable Event (WCCE),
20
Z
zebra mussels,
34
Index
185

Document Outline

  • Historical Applications of Firewater Pumping Systems
    • INTRODUCTION
    • ANCIENT WATER PUMPS
    • RECIPROCATING HAND AND STEAM-DRIVEN FIRE PUMPS
    • ROTARY PUMPS
    • INVENTION OF THE CENTRIFUGAL PUMPAU: Please clarify whether this should be a subheading of ‘Rotary Pumps’ or a H1 heading.
    • MODERN FIRE PUMPS
    • MUNICIPAL WATER PUMPING PLANTS AND MAINS
    • OFFSHORE FACILITIES
  • Philosophy of Protection
    • INTRODUCTION
    • PROTECTION OPTIONS
      • PROCESS EMERGENCY CONTROL MEASURES
      • INCIDENT FUEL CONSUMPTION
      • PROVIDE PROTECTIVE MEASURES
      • PASSIVE SYSTEMS
      • ACTIVE SYSTEMS
    • INSURANCE REQUIREMENTS
    • INTERNAL COMPANY POLICIES AND STANDARDS
  • Firewater Flow Requirements
    • Introduction
    • Risk Areas
    • Exposure Cooling Requirements
    • Fire Control Requirements
    • Suppression Requirements
      • Egress Water Sprays
    • Residual Pressure Requirements
  • Duration of Firewater Supplies
    • Introduction
    • Capability of Public Water Mains
    • Primary Supplies
    • Reserve Supplies
  • Sources of firewater pump supply
    • INTRODUCTION
    • SEAS AND OCEANS
    • RIVERS, CHANNELS, PONDS AND LAKES
    • WATER WELLS
    • MANMADE RESERVOIRS
    • STORAGE TANKS
    • MUNICIPAL AND PRIVATE FIREWATER DISTRIBUTION MAINS
    • SPECIALIZED OFFSHORE RAW SEAWATER SYSTEMS
    • FIREWATER USAGE BY OTHER SERVICES
    • EMERGENCY WATER SOURCES
    • WATER QUALITY
    • ENHANCEMENTS TO FIRE-FIGHTING WATER
    • MARINE GROWTH
      • BIOCIDE INJECTION
      • OTHER MARINE GROWTH CONTROL METHODS
    • FUTURE USE, SOURCES AND DEVELOPMENT
  • Introduction
  • Dynamic Pumps
    • Centrifugal Pumps
    • Pump And Impeller Design Relationships
    • Single and Multi-Stage Arrangements
    • Volute and Turbine Pump Classification
    • Axial Flow Pumps
  • Gear Pumps
  • Lobe Pumps
  • Sliding Vane Pumps
  • Reciprocating Pumps
  • Firewater Pump Characteristics
    • Characteristic Firewater Pump “Curve”
  • Main and Standby Firewater Pumps
  • Booster Firewater Pumps
  • Water Mist Firewater Pumps
  • Jockey Pumps
  • Firewater Circulation Pumps
  • Foam Pumps
  • Packaged and Skid Units
  • Retrofit Improvements to Existing Firewater Pumps
  • Future Expansion
  • Reliance on Mobile Firewater Pumping Apparatus
  • Portable Pumps
  • NFPA 20 versus API 610 and Other Pump Types
  • Introduction
  • Arctic Locations
  • Arid Locations
  • Tropical Locations
  • Earthquake Zones
  • Multiple Pump Installations
  • Pump Rotation
  • Relief Valves
  • Circulation Relief Valves
  • Pressure and Flow Control Valves
  • Materials of Construction
    • Introduction
    • Durability
    • Corrosion Considerations
    • Cathodic Protection
    • Coatings
    • Fiberglass Materials
    • Fresh Water Concerns
    • Common Pump Materials
  • IntroductionAU: Please check the heading levels.
  • Electric Motors
    • NEMA Classification
    • Splash Shield or Partitions
  • Gasoline Engines
  • Fuel Contamination
  • Engine Starting Systems
  • Starting Batteries
  • Engine Cooling System
  • Engine Exhaust System
  • Air Supplies and Ventilation
  • Instrument Panel
  • Steam Turbine
  • Power Transmission Options
    • Driver Pump Coupling
    • Vertical Turbine Pump Discharge Head
    • Right Angle Gear Drives
  • Lineshafts
  • Indirect Hydraulic Drive
  • Acoustical Concerns
  • Maintenance Access
  • Firewater Pump Controllers
    • Introduction
    • Firewater Pump Controllers
      • Diesel Engine
      • Electric Motor
    • Controller Power Supplies
    • Dual Power Source Controllers
    • Automatic Transfer Switches
    • Remote Alarm and Shutdown Panels
    • Low Suction Pressure Cut-Off
    • Jockey Pump Controllers
    • Foam Pump Controllers
    • Controller Listing or Approval
    • Multiple Firewater Pump Installations
    • Firewater Pump Startup
      • Automatic Activation
      • Fire Main Pressure Switch Activation
      • Remote Activation
      • Local Activation
      • Startup Attempts
    • Color Coding of Panel Indicators
    • Electronic Readout Displays
    • Piping and Instrumentation Diagrams
    • Controller Indicators
    • First-Up Fault Feature
    • Cause and Effects Charts
    • Firewater Pump Shutdown
    • Specialized Installations
    • Controller Location and Access Requirements
  • Reliability
    • Introduction
    • Failure Categories
    • Insurance Industry Experience
    • Fault Tree Analysis
    • Single Point Failures
    • Number of Firewater Pumps
    • Pump Operational Failures
    • Electrical Motor Failures
    • Diesel Engine Failures
    • Gearbox Failures
    • Controller Faults
    • Plant Perils and Pumping System Exposure
  • Classified Area Pump Installations
    • Introduction
    • Diesel Engine Ignition Hazards
    • Hot Surfaces
    • Hot Exhaust Gases
    • Exhaust System
    • Exhaust System Spark or Flame Discharge
    • Engine Overspeeding
    • Flashback in Air Intake
    • Material Selection
    • Rated Instrumentation and Electrical Hardware
    • Decompression Ports
    • Electric Motors
    • Controllers
  • Firewater Pump Acceptance and Flow Testing
    • Introduction
    • Safety Precautions
    • Factory Acceptance Test
    • Site Acceptance Test and Commissioning
    • Periodic Performance Tests
    • Pump Curve Test Points
    • Fuel Examination
    • Specific Speed Verification
    • Accuracy of Test Gages
    • Weekly Testing
    • Controller and Interface Testing
    • Foam Pump Testing
    • Basic Test Procedure
    • Supplemental Checks
    • Correction Factors for Observed Test RPM to Rated RPM of Driver
    • Additional Testing and Maintenance Aspects
  • Human Factors and Quality
    • Human Factors
    • Identification
      • Painting
      • Flow Arrows
    • Starting Instructions
    • Access
    • Guards
    • Noise Levels
    • Emergency and Pre-Fire Plans
    • Documentation
    • Training
    • Security
    • Quality Control

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