Firefighting Study Guide PDF

Summary

This study guide provides information on firefighting techniques, including different types of water supply systems like dry barrel and wet barrel. It also covers concepts like valve types, adapters, and factors that affect hose streams.

Full Transcript

Study Guide

CHAPTER 13

Dry Barrel vs Wet Barrel
○ Dry: For use in freezing temperature climates; main control valve is at base of
the hydrant below the frost line; one main stem that supplies all outlets at once
○ Wet: Have water in the hydrant at all times; operating stem for each outlet
Static Water Supply location
○ Pool
○ River
○ pond
○ portable water source
○ lake
3 Key Components to Water Shuttle Operation
○ Dump site at fire
○ Fill site at water source
○ Mobile water supply apparatus to haul water from fill site to dump site
4 Types of Valves
○ Ball, Butterfly, Clapper, Gate
Wye vs. Siamese
○ Wye- appliance with 1 Female inlet and multiple or 2 Male outlets. Divide single
hoseline into 2 or more lines
○ Siamese- appliance with 2 Female inlets and 1 Male outlet. Combines multiple
lines into one line
Adapter/ Reducer
○ Adapter: fitting that connects hose couplings with similar threads and the same
inside diameter
○ Reducer: Used to connect a smaller-diameter hoseline to the end of a larger one
Forward vs Reverse Lay
○ Forward- laying supply line from the hydrant/ water source to the fire
○ Reverse- laying supply line from the fire to the hydrant/ water source
Factors that affect hose stream
○ Velocity
○ Flow rate
○ Gravity
○ Wind direction and Velocity
○ Air friction
○ Operating pressure
Steam Conversion Rate
○ At 212 degrees water expands 1,700 times its original volume as it turns to
steam
Characteristics of smooth bore nozzle
○ Operate at low nozzle pressures
○ Are less prone to clogging with debris
○ Can be used to apply compressed-air foam
○ Mall allow hoselines to kink due to less pressure
○ Do not allow for selection of different stream patterns
3 Main Functions of nozzle
○ Controlling water flow
 ○ Creating reach
○ Shaping the hose stream
Characteristics of Fog Nozzles
○ Feature adjustable discharge patterns
○ Can provide protection to firefighters with a wide fog pattern
○ Can be used for a variety of applications
○ Offer a variety of nozzle choices and manufacturing options
○ Can be used to apply certain types of foam
4 Types of Fog Nozzles
○ Basic Fog - designated nozzle pressure and setting - gpm and psi vary based on
stream
○ Constant gallonage fog nozzle - maintains gpm regardless of stream type
○ Constant pressure (automatic) fog nozzle - GPM dependent on PSI given to
nozzle
○ Constant/select gallonage fog nozzle - manually select gallonage from nozzle
Master Stream flow rates
○ 350-1250 gpm
3 Nozzle Control valves
○ Ball valve
○ Slide valve
○ Rotary
Stream Flow Rates (low volume, handline, master)
○ Low Volume: < 40gpm supplied by ¾”-1 ½” hoseline
○ Handline Stream: 40-350 gpm supplied by 1 ½”- 3” hose
○ Master Stream: > 350 gpm supplied by 1 or more 2 ½” or LDH hose
Characteristics of Fog Streams
○ Can be adjusted to suit the situation
○ Can be used for hydraulic ventilation
○ Can be used for vapor dispersion
○ Can be used for crew protection
○ Expose the maximum water surface for heat absorption
○ May be used to cool the hot fire gas layer as well as hot surfaces
○ Have shorter reach or penetration than solid or straight hose streams
○ Can be more affected by wind than are solid or straight hose streams
○ May disturb thermal layering in a room or compartment if applied incorrectly
○ May intensify the fire by pushing fresh air in the fire area if used incorrectly
4 major types of hose stream patterns
○ Straight: semi-solid stream produced by fog nozzle
○ Fog: water stream of finely divided particles
○ Broken: stream of water that has been broken into coarsely divided drops (cellar,
piercing nozzles)
○ Solid: hose stream produced from a fixed orifice, smooth bore nozzle
Hose Stream limiting Factors
○ friction, wind, gravity, velocity lost
Friction loss increased by:
○ pipes, fire hose, adapters, elevation, distance

CHAPTER 6

Extinguisher fire classes
○ A (Green Triangle) Ordinary Combustibles
 ○ B (Red Square) Flammable and Combustible Liquids and Gases
○ C (Blue Circle) Electrical
○ D (Yellow Star) Combustible Metals
○ K (Black Hexagon) Kitchen/ Cooking Oils
Class D Metals
○ Titanium
○ Lithium
○ Magnesium
○ Potassium
○ Sodium
Methods to extinguish fire
○ Smothering, cooling, chemical flame inhibition, saponification
3 methods of fire extinguisher expels
○ Manual pump, stored pressure, pressure cartridge
Commonly used dry chemicals
○ Sodium bicarbonate, potassium chloride, monoammonium phosphate, potassium
bicarbonate
PASS
○ Pull, aim, squeeze, sweep
Inspecting extinguishers
○ External condition
○ Hose nozzle
○ Weight
○ Pressure gauge

CHAPTER 5

FBAR- Firefighter Breathing Air Replenishment System
○ used in high rises/ required in buildings 75ft +

CHAPTER 4

Potential vs. Kinetic
○ Potential: Stored energy possessed by an object that can be released in the
future to perform work once released
○ Kinetic: Energy possessed by a moving object because of its motion
Different types of energy
○ Chemical, Electrical, Mechanical, thermal, nuclear, light
Energy measured in what units?
○ Joules
Quantity of heat required to change temp of 1 gram of water by 1 degree celsius?
○ 4.2 joules
Exothermic vs. Endothermic
○ Exothermic: Chemical reactions between two or more materials that changes
the materials and produces heat
○ Endothermic: Chemical reactions in which a substance absorbs heat
Fire Tetrahedron
○ Oxygen (Oxidizing agent)
○ Fuel (Reducing Agent)
○ Heat
○ Chemical chain reaction
 Piloted Ignition vs. Auto Ignition
○ Piloted: when a mixture of fuel and oxygen encounters an external heat source
with sufficient heat or thermal energy to start the combustion reaction
○ Auto: occurs without an external flame or spark
4 types of electrical Energy-
○ Resistance
○ Overload or overcurrent
○ Arching
○ Sparking
Convection
○ Transfer of heat by movement of fluid liquid and gasses
Conduction
○ Transfer of heat by physical contact
Radiation
○ Transfer of heat energy by electromagnetic waves
Vapor Density
○ Density of gas in relation to air, air has a vapor density of one
Specific Gravity
○ Ratio of mass of an equal volume of water
Flashpoint
○ Minimum temperature at which a liquid gives off sufficient vapor to ignite but
does not sustain combustion
Fire Point
○ Temperature at which liquid fuel produces sufficient vapor to support combustion
Solubility
○ Degree to which a solid, liquid, or gas dissolves in a solvent (usually water)
Miscible
○ Materials that are capable of being mixed in all proportions
Polar Solvents
○ Flammable liquids that mix readily with water
4 Stages of Fire
○ Incipient - 3 elements of fire triangle come together and combustion begins
○ Growth - isolated flames, rollover, flashover
○ Fully developed - all combustible materials in compartment are burning
○ Decay - Oxygen content is reduced, heat levels decline, heavy smoke
Flashover vs. Backdraft
○ Flashover occurs when all the combustible materials and gases ignite
simultaneously due to heat
○ Backdraft occurs when a vent limited/ oxygen depleted space has been filled with
a large volume of smoke and gases and oxygen is introduced into this space.
Causing instantaneous explosion or rapid burning of superheated gases

High/ Mid/ Low Neutral planes
○ High: indicates that the fire is in the early stages of development or fire above
your level
○ Mid-level: compartment has not yet ventilated or flashover is approaching
○ Low-level: may indicate that fire is reaching backdraft conditions or that fire is
below you
CHAPTER 12

How is the diameter of hose measured?
○ Measure from the inside diameter of hose
Supply vs. Attack lines?
○ Supply transports water from water source to apparatus
○ Attack lines transport pressurized water from pumping equipment to nozzles,
FDCs; and from standpipes to hose connected.
NFPAs 1961, 1962, 1963
○ 1961 standard on fire hose
○ 1962 standard on inspecting and testing
○ 1963 standard on fire hose connections
5 Parts of coupling
○ Shank
○ Higbee cut
○ Higbee indicator
○ Rocker lug
○ Swivel
3 Types of lugs
○ Pin
○ Recessed
○ Rocker lug
Types of damage to hose (6)
○ Chemical
○ mechanical
○ Thermal
○ Corrosion
○ Organic
○ Age deterioration
Common Hose Rolls
○ Straight
○ Donut
○ twin donut
3 most common loads for supply
○ Flat
○ Accordion
○ Horseshoe
LDH Hose definition
○ 3.5” or larger
Preconnect load types
○ Flat load
○ Triple layer load
○ Minuteman load
○ Booster hose reel

CHAPTER 14

Methods to extinguish fire
Direct attack
○ Uses a solid or straight stream directly onto burning material
Indirect attack
 ○ Can be made from inside or outside. Direct stream towards ceiling to cool
Combination attack
○ Uses Indirect attack toward the ceiling and direct attack towards the fire
Transitional attack
○ Uses exterior fire attack through ventilation opening to help transfer from vent
limited to fuel limited fire. Reduces potential for flashover
4 Common types of control valves
○ Piv
○ Wpiv
○ Piva
○ Os&y
Mercaptan
○ Propane has no natural odor, but mercaptan gives it a distinct smell
Ground Cover Fire
○ Weeds
○ Field crops
○ Forests
○ Grass
○ Brush
○ Similar vegetation
3 Basic types of Ground Cover Fires
○ Ground
○ Surface
○ Crown
3 Main influences on ground cover fires
○ Fuel
○ Weather
○ Topography
Weather factors that influence fires
○ Wind
○ Temperature
○ Temperature difference
○ Relative humidity
○ Precipitation
Other topographic factors influencing fires
○ Aspect- Compass direction a slope faces
○ Local Terrain features- canyons, ridges, ravines
○ Drainages- create wind-flow restrictions. Creates turbulent updrafts/ chimney
effect

SECTION E

General Staff
○ Operations, Planning, Logistics, Finance/Administration
3 Basic Levels of command
○ Strategy
○ Tactical
○ Task
IC Responsibilities
○ Setting strategic goals and tactical objectives
○ Overall management of incident
 ○ Life safety
○ Incident Stabilization
○ Property Conservation
Safety Officer Responsibilities
○ Identifying and monitoring hazardous and unsafe situations
○ Ensuring operational and personnel safety
PIO
○ Relays accurate information between the IC and all stakeholders
○ Advising the IC on information dissemination and media relations
○ Obtaining and providing information to the Planning Section, community and
media
Liaison
○ Communicates between the Command Staff and Supporting agencies at an
incident
○ Helps coordination of efforts between incident personnel and assisting/
cooperating agencies
Leadership Traits
○ Supervisory ability
○ Communication
○ Decisiveness
○ Intelligence
○ Self-Assurance
○ Initiative
○ Sense of priority
○ Interpersonal skills
○ Empowerment
○ Preparedness
○ Proactiveness
3 Strategic Goals for all emergency situations
○ Life Safety
○ Incident Stabilization
○ Property Conservation
Briefing Operational Period
○ Delivered at beginning of operational period at a lengthy incident