1. Fire Hose, Appliances, and Nozzles
CHAPTER 15
Fire Hose, Appliances, and Nozzles

2. Knowledge Objectives List the two types of fire hose.
Describe the various sizes of fire hose and how they are used.
Describe the characteristics of attack hose.
Explain how fire hose is constructed.
Describe the characteristics of single-jacket hose.
Describe the characteristics of multiple-jacket hose. 2

3. Knowledge Objectives
Describe the characteristics of rubber-covered hose.
Describe the characteristics of couplings.
List the common types of couplings.
Describe supply hose.
Describe the two types of suction hose.
List the common types of hose damage.
Describe how to clean and maintain hose. 3

4. Knowledge Objectives Describe the importance of a hose inspection.
List the common types of hose rolls used to organize supply hose.
List the common hose appliances used in conjunction with fire hose.
Describe the characteristics of wyes.
Describe the characteristics of water thieves.
Describe the characteristics of Siamese connections. 4

5. Knowledge Objectives
Describe the characteristics of adaptors and reducers.
Describe the characteristics of hose jackets.
Describe the characteristics of hose rollers.
Describe the characteristics of hose bridges.
Describe the characteristics of hose clamps.
Describe the types of valves used to control water in pipes or hose lines. 5

6. Knowledge Objectives
Describe the different types of master stream appliances.
Discuss the differences between smooth-bore nozzles and fog-stream nozzles. 6

7. Skills Objectives Replace the swivel gasket on a fire hose.
Perform the one-fire-fighter foot-tilt method of coupling a fire hose.
Perform the two-fire-fighter method of coupling a fire hose.
Perform the one-fire-fighter knee-press method of uncoupling a fire hose.
Perform the two-fire-fighter stiff-arm method of uncoupling a fire hose.
Uncouple a hose with a spanner wrench.
Clean and maintain hose.
Mark a defective hose.

8. Skills Objectives Perform a straight hose roll.
Perform a single-doughnut hose roll.
Perform a twin-doughnut hose roll.
Perform a self-locking twin-doughnut hose roll.
Use a hose jacket.
Open and close nozzles slowly to prevent water hammer.
Operate a smooth-bore nozzle.
Operate a fog-stream nozzle.

9. Fire Hose Two main purposes Supply hoses (supply lines)
Deliver water to attack engine from pressurized source
Attack hoses (attack lines)
Discharge water from attack engine onto fire 9

10. Sizes of Hose Range from ¾ in. to 6 in. (19 mm to 152 mm)
Nominal hose size
Inside diameter of hose filled with water
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 10

11. 1½-Inch (38-mm) and 1¾-Inch (44-mm) Attack Hose
Primary attack hose for most fires
Can be operated by one fire fighter
Often stored on fire apparatus as preconnected attack line
Main difference between them is amount of water that can flow through 11

12. Booster Hose Also known as booster line 1-in. (25-mm) diameter
Carried on hose reel that holds 150 ft or 200 ft (45 m or 61 m) of hard rubber hose
Rigid and lightweight
Limited flow
Usually used for small outdoor fires 12

13. Forestry Fire Hose Lightweight, collapsible hose
¾-in. (19-mm), 1-in. (25-mm), or 1½-inch (38-mm) diameter
Used to fight wildland and ground cover fires
Offers better maneuverability through brush and trees 13

14. 2½-Inch (65-mm) to 3-Inch (76-mm) Hose
Can be used as attack or supply hose
Takes at least two fire fighters to control
3-in. (76-mm) hose
Often used as supply hose
Used to deliver water to portable monitors, deck guns, and aerial master stream appliances when used as attack hose
Usually come in 50-ft (15-m) lengths 14

15. Large-Diameter Hose Sizes Standard lengths Water flows 4 in. (100 mm)
50 ft (15 m)
100 ft (30 m)
Water flows
Range from 350 to 1500 gpm (1325 to 5678 L/min) 15

16. Hose Construction
Inner waterproof liner surrounded by one or two outer layers (jackets)
May be single-jacket or multiple-jacket
Rubber-covered hose
Double-jacket hose with
rubber-like compound on
jacket
Stored flat and fold easily
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 16

17. Hose Construction Hose liner Inner part or layer of hose
Prevents water from leaking
Provides smooth inside surface for water flow
Usually made of synthetic rubber compound or thin flexible membrane material
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 17

18. Hose Couplings Connect length of hose to Another length of hose
Fire hydrant
Inlet or outlet connection on engine
Nozzles, fittings, and appliances
Permanently attached to ends of hose
Most common types
Threaded
Storz-type (nonthreaded) 18

19. Threaded Hose Couplings
Used on most hose up to 3 in. (76 mm)
Male coupling
Threads on outside
Single piece
Female coupling
Threads on inside
Two pieces
Reducer or adaptor
Can connect hoses of different sizes or threads
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 19

20. Threaded Hose Couplings
Standardized threads commonly used by most departments
Proper thread alignment essential for secure couplings
Prone to cross threading
Spanner wrench
Used to couple and
uncouple hose couplings
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 20

21. Threaded Hose Couplings
Lugs
Extensions or indentations that provide leverage for coupling and uncoupling
Types
Pin lugs
Rocker lugs or rocker pins
Recessed lugs
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 21

22. Threaded Hose Couplings
Higbee indicator
Notch on lug that indicates position of first thread
Rubber swivel gasket
O-shaped piece of rubber
Sits inside swivel section of female coupling
Forms seal to prevent leaks
Can deteriorate over time
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 22

23. Storz-Type (Nonthreaded) Hose Couplings
Couplings same on both ends
Can attach to any other coupling of same diameter
Most often used on
large-diameter hose (LDH)
Connected by
Mating two couplings
face-to-face
Turning them clockwise
to lock
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 23

24. Storz-Type (Nonthreaded) Hose Couplings
Adaptors connect Storz-type couplings to
Fire hydrants
Threaded couplings
Couplings of different sizes
Techniques used for coupling and uncoupling
One-fire fighter foot-tilt method
Two-fire fighter method
Never disconnect charged hose lines while water is under pressure. 24

25. Supply Hose Deliver water to attack engine from pressurized source
Carry larger volumes of water at lower pressures than attack hose
Common sizes
2½ in. (65 mm)
3 in. (76 mm)
4 in. (100 mm)
5 in. (127 mm)
6 in. (152 mm) 25

26. Supply Hose Choice of diameter based on
Fire department preferences and operating requirements
Amount of water needed to supply attack engine
Distance from source to attack engine
Pressure available at source 26

27. Supply Hose With threaded couplings, hose can be laid out
From fire hydrant or supply engine to fire
Forward hose lay
From fire to hydrant or supply engine
Reverse hose lay
Engines may be loaded with two beds of hose.
Can easily drop supply hose in either direction 27

28. Supply Hose 2½-in. (65-mm) hose
May be used as supply hose or attack hose
LDH
Much more efficient for moving larger volumes of water over longer distances
Testing
Must test annually at pressure of at least 200 psi (1379 kilopascals [kPa]) or pressure not to exceed service test pressure marked on hose 28

29. Suction Hose Supplies water to suction (intake) side of fire pump
Two types
Soft sleeve hose
Transports water from pressurized source to suction side of fire pump
Hard suction hose
Drafts water from static water source 29

30. Soft Sleeve Hose Short section of large-diameter supply hose
Provides water from larger steamer outlet to suction side of fire pump
Ranges from 2½ in.
(65 mm) to 6 in. (152 mm)
May have Storz or
threaded couplings
Between 10 ft (3 m)
and 25 ft (7.6 m) in length
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 30

31. Hard Suction Hose
Short section of rigid hose that drafts water from static source or carries water from fire hydrant to pumper
10-ft. (3-m) or 20-ft (6-m)
sections
Diameter up to 6 in. (152 mm)
Made of rubber or plastic
Long handles on female
couplings for tightening hose
© Jones & Bartlett Learning.
Photographed by Glen E. Ellman. 31

32. Attack Hose Designed for fire suppression Common diameters
1½-in. (38-mm) or 1¾-in. (44-mm) lines
1-in. (25-mm) booster lines
1-in. (25-mm) or 1½-in. (38-mm) forestry fire hose
Each section usually 50 ft (15 m) long
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 32

33. Attack Hose Must be tough, flexible, and lightweight
Needs to be able to withstand
High pressure and high temperatures
Sharp surfaces
Abrasion
Other potentially damaging conditions
Must be tested annually
Can be multiple-jacket or rubber-covered construction 33

34. Hose Care, Maintenance, and Inspection
Should regularly inspect and test fire hose
NFPA 1962, Standard for the Care, Use, Inspection, Service Testing, and Replacement of Fire Hose, Couplings, Nozzles, and Fire Hose Appliances
Also check swivel gaskets in female couplings
Replace when worn or damaged. 34

35. Causes and Prevention of Hose Damage
Mechanical damage
Caused by
Dragging hose over rough or sharp objects
Running over hose with vehicle
Heat and cold
Fire and embers can burn hose.
Frozen hose can rupture.
Keep water flowing through hose in low temperatures.
Do not bend frozen hose; allow it to thaw out. 35

36. Causes and Prevention of Hose Damage
Chemicals
Many can damage fire hose.
Remove chemicals from hose as soon as possible.
Wash hose with approved detergent.
Mildew
Fungal growth on fabrics
Can cause hose to rot
Fibers in rubber-covered hose are protected. 36

37. Cleaning and Maintaining Hose
Important to clean and maintain fire hose
General guidelines
Prevent hose from contact with petroleum and abrasive substances.
Clean hose as soon as possible after it becomes dirty.
Follow manufacturer’s recommendations. 37

38. Cleaning and Maintaining Hose
Some fire departments use special equipment to wash and dry fire hose.
© Jones & Bartlett Learning. Photographed by Glen E. Ellman.
Courtesy of Circul-Air Corp. 38

39. Cleaning and Maintaining Hose
Hose-drying methods
Angled rack with slats
Hose towers
Heated hose-drying cabinet
Follow manufacturer’s directions for washing and drying equipment.
Hose couplings may require special attention.
Courtesy of Circul-Air Corp. 39

40. Hose Inspections Perform visual inspections At least quarterly
After each use
Lengths of hose with defects
Remove from service and tag
Hose unused for 30 days
Unpack, inspect, clean, and reload 40

41. Hose Testing and Records
Hose should be tested at least annually.
NFPA 1962, Standard for the Care, Use, Inspection, Service Testing, and Replacement of Fire Hose, Couplings, Nozzles, and Fire Hose Appliances
Hose record
Written history of each length of hose
Contains
Hose size and type
Manufacturer and date of manufacture
Date of purchase
Testing dates 41

42. Straight or Storage Hose Roll
Uses
General handling
Transportation
Rack storage
Male coupling at center of roll
Female coupling on outside of roll
© Jones & Bartlett Learning. 42

43. Single-Doughnut Hose Roll
Used when hose will be put into use directly from rolled state
Both couplings on outside of roll
Can be connected and extended by one fire fighter
© Jones & Bartlett Learning. 43

44. Twin-Doughnut Hose Roll
Used primarily to make small compact roll for easy carrying
© Jones & Bartlett Learning. 44

45. Self-Locking Twin-Doughnut Hose Roll
Similar to twin-doughnut hose roll, but forms its own carry loop
© Jones & Bartlett Learning. 45

46. Hose Appliances
Devices used in conjunction with fire hose to deliver water
Various types are used
Mainly with supply hose
Mainly with attack hose
With both supply and attack hose 46

47. Wye Splits one hose into two or more lines
One female connection and two or more male connections
Primarily used on attack hose
Gated wye
Two quarter-turn ball valves
Can add second hose without
shutting down first hose
Courtesy of Akron Brass Company 47

48. Water Thief Similar to gated wye, but includes:
2½-in. (65-mm) inlet
2½-in. (65-mm) outlet
Two 1½-in. (38-mm) outlets
Supplies many hose from one source
Primarily used on attack hose
Courtesy of Akron Brass Company 48

49. Siamese Connection Combines two or more hose lines into one
Two female inlets and one male outlet
May be equipped with
Quarter-turn ball valves
Clapper valves
Sometimes used on engine
inlet
Commonly installed on Fire Department Connections (FDCs)
Courtesy of Akron Brass Company 49

50. Adaptors Safely connect fire hose couplings with
Couplings of different sizes, threads, or mating surfaces
Other appliances
Double-female adaptor
Joins two male hose couplings
Double-male adaptor
Joins two female hose couplings
© Jones & Bartlett Learning.
Photographed by Glen E. Ellman. 50

51. Reducers
Type of adaptor that attaches smaller-diameter hose to larger-diameter hose
Larger end usually female
Smaller end usually male
© 2003, Berta A. Daniels 51

52. Hose Jacket Placed over leaking section of hose to stop leak
Provides temporary fix
Split metal cylinder fits tightly over outside of hose
Fastener clamps cylinder
Gaskets prevent leakage
© 2003, Berta A. Daniels 52

53. Hose Roller
Prevents chafing or kinking at a sharp edge when hose is being hoisted
Sometimes called a hose hoist
Can also be used to protect ropes
© 2003, Berta A. Daniels 53

54. Hose Bridge Protects hose when vehicles are driven over it
Rubber hose bridge
Placed under hose
Hose is placed into trough
Metal hose bridge
Placed over hose
Hose is placed in center of bridge 54

55. Hose Clamp Temporarily stops flow of water in hose
Often applied to supply hose so hydrant can be opened before line is hooked up
May use
Screw mechanism
Long-handled lever
Hydraulic power
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 55

56. Valves Control flow of water in pipe or hose
Open and close slowly to prevent water hammer
Ball valve
Used on nozzles, gated wyes, and engine discharge gates
Consist of ball with hole in the middle
Courtesy of Akron Brass Company 56

57. Valves Clapper mechanisms Prevent water from flowing backward
Commonly used in FDCs
Gate valves
Found on fire hydrants and sprinkler systems
Rotating spindle causes gate to move across opening
Courtesy of Akron Brass Company 57

58. Valves Butterfly valves Often found on large pump intake connections
Rotate handle one-quarter turn
Four-way hydrant valves
Enable water to flow directly from hydrant to attack engine
Can boost pressure in supply hose without interrupting flow of water
Courtesy of Akron Brass Company 58

59. Valves Remote-controlled hydrant valve Attaches to fire hydrant
Allows operator to turn hydrant on without flowing water into hose line
Operated by pump operator with radio control 59

60. Master Stream Appliances
Produce high-volume water streams for large fires
Discharge 350 to 1500 gpm (1325 to 5678 L/min)
Deck gun
Permanently mounted on and operated from vehicle
Also known as turret pipe or wagon pipe
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 60

61. Master Stream Appliances
Portable monitor
Can be carried on and removed from apparatus
Placed on ground and connected to hose lines
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 61

62. Master Stream Appliances
Elevated master stream
Mounted on aerial apparatus
Ladder pipe
Elevated master stream device mounted close to tip of aerial ladder or tower ladder
© SteveStone/iStockphoto.com 62

63. Nozzles
Attach to discharge end-of-attack lines to give fire streams shape and direction.
Used on all sizes of handlines and master stream devices
Three groups
Low-volume nozzles
Handline nozzles
Master stream nozzles 63

64. Nozzle Shut-Off Starts or stops flow of water
Some incorporate a rotary control valve
Breakaway fire nozzle
Designed so tip of nozzle can be separated from shut-off valve
Allows fire fighters to add more lengths of hose without shutting off valve at engine 64

65. Types of Nozzles Two types Smooth-bore nozzles
Produce solid stream or column of water
Fog-stream nozzles
Can be adjusted to produce straight stream or to separate water into droplets
To produce a good fire stream, nozzles require
Adequate volume of water
Adequate pressure 65

66. Smooth-Bore Nozzles Consist of shut-off valve and smooth-bore tips
Fit handlines and master stream devices
Stacked tips allow different stream sizes
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 66

67. Smooth-Bore Nozzles Advantages
Longer reach than combination fog nozzle
Operate at lower pressures
Easier to handle
Extinguishes fire with less air movement and less disturbance of thermal layering than a fog stream 67

68. Smooth-Bore Nozzles Disadvantages
Not as effective for hydraulic ventilation
Cannot change setting to produce fog pattern 68

69. Fog Stream Nozzles
Produce fine droplets that absorb more heat per gallon than straight stream
Can be used to reduce room temperature to prevent flashover
Cannot produce solid stream
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 69

70. Fog Stream Nozzles Advantages Can produce a variety of stream patterns
Can be used to create a water curtain to protect fire fighters from extreme heat
Disadvantages
Move large volumes of air along with water
Can push hot steam and gases onto fire fighters
If used incorrectly, can push fire into unaffected areas 70

71. Fog Stream Nozzles
Nozzles must operate at recommended pressure to produce effective stream
Traditionally 100 psi (689 kPa)
Modern nozzles may operate at 50 or 75 psi (345 or 517 kPa) 71

72. Types of Fog Stream Nozzles
Fixed gallonage
Delivers preset flow at rated discharge pressure
Adjustable gallonage
Allows operator to select desired flow
Automatic adjusting
Delivers wide range of flows 72

73. Other Types of Nozzles Piercing nozzles
Used to make holes in automobile sheet metal, aircraft, or building walls to extinguish fires behind them
© Goodman Photography/Shutterstock, Inc. 73

74. Other Types of Nozzles Cellar nozzles and Bresnan distributor nozzles
Used to fight fires in cellars and other inaccessible places
Water curtain nozzles
Delivers protective flat curtain of water on surface of an exposed building
Courtesy of Akron Brass Company.
Courtesy of POK of North America, Inc. 74

75. Nozzle Maintenance and Inspection
Nozzles should be
Inspected on a regular basis
Checked after each use
Kept clean and clear of debris
Lightly grease valve ball.
Inspect fog nozzle fingers.
© Jones & Bartlett Learning. Photographed by Glen E. Ellman. 75

76. Summary
Fire hose range in size from 3⁄4 in. to 6 in. (19 mm to 152 mm) in diameter.
Forestry fire hose is 3⁄4 in. (19 mm), 1 in. (25 mm), or 1½ in. (38 mm) in diameter.
Booster hose is 1 in. (25 mm) in diameter. Although it is classified as attack hose, it should not be used for structural or vehicle firefighting. The normal flow from a 1-in. (25-mm) booster hose is in the range of 40 to 50 gpm (151 to 189 L/min). 76

77. Summary
Most fire departments use either 1½-in. (38-mm) or 1¾-in. (44-mm) diameter hose as the primary attack hose for most fires.
A 2½-in. (65-mm) hose can be used either as attack hose or supply hose, but it is most often used as attack hose for large fires. It generally delivers a flow of approximately 250 gpm (946 L/min).
A 3-in. (76-mm) hose is often used as supply hose. Most large-diameter hose (3½ in. [88 mm] or more) is constructed as supply hose. The largest large-diameter hose size is 6 in. (152 mm) in diameter. 77

78. Summary
Fire hose is constructed with an inner waterproof liner surrounded by either one or two outer layers.
Hose couplings are used to connect or couple individual lengths of fire hose together. They are also used to connect a hose line to a hydrant, to a suction or discharge valve on an engine, or to a variety of nozzles, fittings, and appliances. A coupling is permanently attached to each end of a section of fire hose. 78

79. Summary
The two types of couplings are threaded hose couplings and Storz-type hose couplings.
A set of threaded hose couplings includes a male hose coupling with threads on the outside on one end of the hose and a female hose coupling with threads on the inside on the other end of the hose. Threaded hose couplings are used on most hose up to 3 in. (76 mm) in diameter. Threaded hose couplings provide a secure connection between two sections of hose when properly coupled. A disadvantage is that they are prone to cross threading. 79

80. Summary
Storz-type couplings are designed so that the couplings on both ends of a length of hose are the same. When this system is used, each coupling can be attached to any other coupling of the same diameter. They are connected by mating the two couplings face-to-face and then turning them clockwise into a locking position. One disadvantage is that these couplings are more prone to accidental disconnect if they are not completely coupled. 80

81. Summary
Several techniques are used for connecting and disconnecting hose couplings. Depending on the circumstances, one technique may be more effective than another.
Fire hose are used as supply hose and as attack hose. 81

82. Summary
Supply hose are used to deliver water from a static water source or from a fire hydrant to an attack engine. They are designed to carry larger volumes of water at lower pressures than attack hose. Supply hose can either be soft sleeve or hard suction. 82

83. Summary
Soft sleeve hose is a short section of large-diameter supply hose that is used to connect a fire department engine directly to the large steamer outlet on a hydrant. A soft sleeve hose may have a Storz or similar connections on both ends, or it may have threaded female connections on each end, with one end matching the local fire hydrant threads and the other end matching the threads on the suction side of the fire pump. If it has two Storz connections, an adaptor is required to connect the large diameter inlet to the engine and the fire hydrant. 83

84. Summary
A hard suction hose is a special type of supply hose that is used to draft water from a static source such as a river, lake, or portable drafting basin to the suction side of the fire pump on a fire department engine or into a portable pump. It can also be used to carry water from a fire hydrant to the pumper. It is designed to remain rigid and will not collapse when a vacuum is created in the hose to draft the water into the pump. 84

85. Summary
Attack hose is designed to be used for fire suppression. This hose carries the water from the attack engine to the fire or to an FDC or from a standpipe system to the fire. Attack hose usually operate at higher pressures than supply lines do.
Fire hose should be inspected often and tested annually following the procedures in NFPA 1962, Standard for the Care, Use, Inspection, Service Testing, and Replacement of Fire Hose, Couplings, Nozzles, and Fire Hose Appliances. 85

86. Summary
The most common causes of hose damage are mechanical damage, heat and cold damage, UV radiation, chemical damage, and mildew damage.
Follow the manufacturer’s recommendations for cleaning and maintaining hose. For a mild cleaning, cool water and a soft brush may be adequate. For dirty hose, it may be necessary to use a mild detergent. 86

87. Summary
Visual hose inspections should be performed at least quarterly. A visual inspection of hose should be performed after each use. If any defects are found, the length of hose should be marked, and the hose should be removed from service.
Rolled hose is compact and easy to manage and transport. A fire hose can be rolled different ways, depending on how it will be used. Follow the SOPs of your department when rolling hose. 87

88. Summary
Hose appliances are used in conjunction with a fire hose for the purpose of delivering water. Appliances include wyes, water thieves, Siamese connections, adaptors, reducers, hose jackets, hose rollers, hose bridges, hose clamps, and some valves. 88

89. Summary
Master stream appliances or devices are used to produce high-volume water streams for large fires. Most master stream appliances discharge between 350 gpm (1325 L/min) and 1500 gpm (5678 L/min). These include deck guns, portable monitors, and elevated master stream appliances.
Nozzles produce streams of water or extinguishing agents such as foam, giving them shape and direction. 89

90. Summary
Nozzles can be classified based on the size of the fire stream:
Low-volume nozzles flow 40 gpm (151 L/min) or less. In structural firefighting, they are primarily used for booster hose; their use is limited to small outside fires.
Handline nozzles are used on hose lines ranging from 1½ in. (38 mm) to 2½ in. (65 mm) in diameter. Handline streams usually flow between 60 and 350 gpm (227 and 1325 L/min).
Master stream nozzles are used on deck guns, portable monitors, and ladder pipes that flow more than 350 gpm (1325 L/min). 90

91. Summary
Nozzle shut-off valves enable the fire fighter at the nozzle to start or stop the flow of water. 91

92. Summary
Nozzles can be classified by type. Two types, the smooth-bore nozzle and the fog-stream nozzle, are manufactured for the fire service.
Smooth-bore nozzles produce a solid stream, or a solid column of water. Smooth-bore nozzles are manufactured to fit both handlines and master stream appliances.
Fog-stream nozzles can be adjusted to produce a straight stream or to separate the water into droplets to produce a variety of fog streams. 92

93. Summary Several other types of nozzles are used for special purposes.
Piercing nozzles are used to make a hole in sheet metal or building walls to extinguish fires.
Cellar nozzles and Bresnan distributor nozzles are used to fight fires in cellars or basements and other inaccessible places.
Water curtain nozzles are used to deliver a flat screen of water that forms a protective sheet of water on the surface of an exposed building. 93

94. Summary
Nozzles should be inspected on a regular basis, along with all of the equipment on every fire department apparatus. 94