Fire Streams and Nozzles

Question 1

1600’s

Answer 1

bucket brigade

Question 2

1700’s

Answer 2

leather, copper riveted hose with playpipes

Question 3

1800’s

Answer 3

2.5in cotton hose with underwriter’s playpipe

Question 4

1940-1950

Answer 4

1.5in hose with assorted spray nozzles

Question 5

1950-1960

Answer 5

combination of fixed nozzles and adjustable nozzles

Question 6

1960-1970

Answer 6

added 1.75in hose and automatic nozzles

Question 7

1970-1980

Answer 7

1.75 and 2.5in hoses with lots of automatic nozzles

Question 8

1980-1990

Answer 8

Light weight hoses with dual pressure nozzles and special application attachments

Question 9

Why do we use water to firefight?

Answer 9

a. Cheap, readily available, requires lots of specific heat and latent heat

Question 10

Specific heat

Answer 10

The amount of energy required to increase the temperature of substance by one degree. One BTU is the amount of heat required to raise a pound of water one degree Fahrenheit at standard atmospheric pressure

Question 11

Latent heat of vaporization

Answer 11

Energy required to change a substance from a liquid to a gas

Question 12

Water expands ____ times its original volume when converted to steam

Answer 12

1700

Question 13

d. Although energy is required to change forms, the water still stays ____throughout the process.

Answer 13

212F

Question 14

You must apply enough water to …

Answer 14

absorb the heat faster than it is being generated

Question 15

Fire stream

Answer 15

a stream of water or other extinguishing agent after it leaves the firehose and nozzle until it reaches the desired target

Question 16

Water streams are ID’d by

Answer 16

size and type

Question 17

Size =

Answer 17

volume, GPM

Question 18

Type =

Answer 18

pattern

Question 19

Sizes

Answer 19

i. Low flow =

Question 20

Types

Answer 20

i. Fog
ii. Solid
iii. Broken

Question 21

Solid stream

Answer 21

a solid stream is a fire stream produced from a fixed orifice, smooth bore nozzle

i. Reach and penetration
ii. A good solid stream places 90% of its water in a 15in circle, or 75% in a 10in circle at the break over point

Question 22

Breakover point

Answer 22

the point where the stream loses its forward momentum and falls into showers of spray that can be blown away easily.

Question 23

Advantages of solid stream

Answer 23

1. Reach and penetration
2. Not likely to disturb thermal layers as much
3. Less nozzle reaction
4. Easy to see

Question 24

Disadvantages of solid stream

Answer 24

1. Can’t change pattern
2. Can’t be used for foam
3. Less heat absorption per gallon

Question 25

Fog stream

Answer 25

has a defined pattern and is composed of small droplets; adjustable

Question 26

Advantages of fog stream

Answer 26

1. Maximized heat absorption due to lots of water surface area
2. Adjustable to situation
3. Sometimes has adjustable gallonage
4. Can aid in ventilation

Question 27

Disadvantages of fog stream

Answer 27

1. Less reach and penetrating power
2. Susceptible to wind
3. Can cause thermal inversion and steam burns

Question 28

Broken Streams

Answer 28

no defined pattern

i. Created by device, bouncing streams off objects or other streams
ii. Large droplets have greater penetrating power
iii. Used in basement and ceiling fires

Question 29

4 things needed for a good firestream

Answer 29

• Reliable water supply
• Fire pump
• Appropriate equipment – hoses, nozzles, etc
• Personnel trained to operate equipment

Question 30

Limiting factors of firestreams

Answer 30

a. Velocity of water
b. Wind pattern and velocity
c. Stream pattern
d. Friction
e. Gravity

Question 31

Horizontal reach is best achieved at what angel?

Answer 31

32 degrees

Question 32

Vertical reach stats

Answer 32

a. Actual reach is best at 90 degrees (not super useful…)
b. Practical vertical reach is achieved at 70-75 degrees
c. Handline streams can be thrown to 3rd story

Question 33

Nozzles!

Answer 33

Yay!

Question 34

Types of nozzles

Answer 34

a. Smooth bore
b. Combo/fog
c. Special

Question 35

Components of a nozzle

Answer 35

a. Shut off device

b. Stream shaping device

Question 36

Hydraulic considerations

Answer 36

Friction loss
Nozzle pressure
elevation

Question 37

Friction loss

Answer 37

the part of the total pressure that is lost while forcing the water through pipe, fittings, hose, etc

i. 1.75in loses 7psi per 50ft section
ii. 2.5in loses 5 psi per 50ft section

Question 38

Nozzle pressure

Answer 38

there must be enough pressure for the nozzle to function properly and flow the correct amount of water

Question 39

Elevation

Answer 39

i. Head pressure: the pressure resulting from the elevation of water
ii. .434psi/ft
iii. Generalize .5psi/ft or 5 psi per floor above ground level

Question 40

Engine pressure stats

Answer 40

d. Engine pressure must be the desired nozzle pressure compensated for friction loss and elevation change
i. EP = NP + FL +/- Elevation

Question 41

Nozzle reaction stats

Answer 41

the amount of force being generated at the nozzle opposite to the direction of the stream, measured in pounds.

a. Newton’s 3rd law
b. NR is created by velocity and flow: if NP ^, then NR ^
c. Fog patterns decrease nozzle reaction due to deflection

Question 42

Nozzle reaction math smooth bore

Answer 42

Smooth bore: NR = 1.5 x D^2 x NP

For example: 1in solid stream, NP 50psi at 210GPM will generate 75lbs NR

Question 43

Nozzle reaction math fog

Answer 43

Fog: NR = .05 x GPM x √NP
For example: a fog stream flowing at ~95gpm creates 48lbs NR
For example: fog, NP 100psi at 210GPM generates 105 NR

Question 44

Nozzle functions

Answer 44

a. Control flow (GPM)
b. Provide reach
c. Shape stream

Question 45

Standard operating pressure of nozzles

Answer 45

a. Smooth bore = 50psi
b. Combo = 100psi
c. Breakapart
i. Fog = 75psi
ii. Smooth bore = 50psi
d. Smooth bore master stream = 80 psi
e. Fog master stream = 100psi

Question 46

Types of nozzles

Answer 46

Automatic
Constant gallonage
non-constant gallonage
flushing fog nozzles
smooth bore
specialty

Question 47

Automatic nozzles

Answer 47

iv. Maintain optimum nozzle pressure of 100psi
v. Increase in pressure leads to an increase of GPM
vi. Changing shape of stream does not affect GPM
vii. Have springs that keep the psi constant
viii. Can be throttled down if the flow is too great, but that might lead to an effective looking stream that really isn’t.

Question 48

Task Force Tip

Answer 48

2.5in hose: 50-350GPM, 1.75in hose up to 225GPM

Question 49

Akron Akromatic

Answer 49

2.5in hose: 60-375GPM, 1.75in up to 225GPM

Question 50

Akron Akromatic Master Stream

Answer 50

up to 1250GPM

Question 51

Constant gallonage

Answer 51

i. Give same GPM regardless of shape
ii. Has a selector ring that allows for change, but must inform engineer
v. Constant gallonage nozzles are also adjustable gallonage nozzles

Question 52

KK Thunder Fogs

Answer 52

30-200GPM

Question 53

Akron Turbojets

Answer 53

60-200GPM

Question 54

Non-constant gallonage

Answer 54

i. GPM changes as you adjust the stream type
ii. The rated GPM is obtained at 30 degrees, increasing 15% when open to full fog and decreasing 15% when set to straight stream.
iii. Wildland hoses are an example
iv. Also called variable flow nozzles

Question 55

Flushing fog nozzles

Answer 55

i. Allows for the removal of objects like stones, scale, etc up to 5/16in
ii. Some nozzles have a flush setting, rotate to flush
iii. Some nozzles have flush control on the front

Question 56

Smooth bore nozzle stats

Answer 56

size on tips

i. Fixed orifice, thus single pattern
ii. Reach and penetration
iii. Nozzle tips should:
1. Not be bigger than 50% of the diameter of the hose
2. Linear portion of cylindrical bore of the tip should be 1x-1.5x the diameter of the tip orifice.

Question 57

Smooth bore handline sizes

Answer 57

1. 7/8”
2. 1”
3. 1 1/8”
4. 1 ¼”

Question 58

Smooth bore master stream sizes

Answer 58

1. 1 ¼”
2. 1 ½”
3. 1 ¾”
4. 2”
5. 2 ¼”

Question 59

Speciality nozzles

Answer 59

Flame fighter

break apart nozzle

Question 60

Flame fighter nozzle pressure and size and GPM stats

Answer 60

PSI/NP GMP 1.75in 2.5in
100 190 250
125 215 274
150 n/a 320

Question 61

Flame fighter nozzle

Answer 61

1. Can go on either 1.75 or 2.5in line
2. 2600ft2 of coverage
3. Minimal nozzle reaction
4. Used for confined spaces, cars/RV, compacted material
5. 48in overall length but can be extended
6. 1.5in NST pistol grip shut off butt
7. 36in aluminum body with and addition 36in extension
8. Hard plated chrome tip

Question 62

Breakapart nozzle

Answer 62

1. Can be used as smoothbore or fog
2. Non-constant gallonage when used as fog
3. 150GPM @ 75 psi Fog
4. 180GPM @ 50 psi 15/16th smoothbore

Question 63

Nozzle reminders

Answer 63

• No water hammer! Open/close nozzles slowly.
• Nozzles are tools upon which your life depends – treat them accordingly.
• Bleed air out of hose sooner rather than later.