Chapter 15: Fire Hose, Appliances, And Nozzles

Question 1

Most fire departments use either 1 1/2 or 1 3/4 inch hose as their primary attack hose. They both have the same size couplings. What size are they?

Answer 1

1 1/2 inch couplings

Question 2

What is the primary difference between 1 1/2 and 1 3/4 inch hose?

Answer 2

The amount of water that can flow through the hose.

Question 3

Depending on the pressure in the hose and the type of nozzle being used, what is the range of an 1 1/2 and 1 3/4 inch hose can flow?

Answer 3

1 1/2 inch hose can flow between 60-125 gpm.

1 3/4 inch hose can flow between 120-180 gpm.

Question 4

Booster Hose Line

Answer 4

A 1 inch diameter hose, usually carried on a hose reel that holds 150 ft or 200 ft of hard rubber hose. Contains a reinforcement material that gives it a ridged shape, in which this rigid shape allows the hose to flow water without pulling all of the hose off the reel. Flow range 40 to 50 gpm. Used typically for small outdoor fires and trash dumpster fires. Should not be used for structural fires.

Question 5

1. How much can a 2 1/2 flow?
2. How much does a 50 ft dry length of 2 1/2 inch hose weigh?
3. How much does a 50ft charged 2 1/2 inch hose weigh?

Answer 5

1. 250 gpm
2. 30 Lbs
3. 140 Lbs

Question 6

2 1/2 inch hose

Answer 6

Can be used as an attack or supply hose, but most often and attack hose. Used as an attack hose for interior attacks in large buildings and for exterior attacks.

Question 7

3 Inch Hose

Answer 7

Often used as a supply hose. When used as an attack line, it is often used to deliver water to portable monitors, deck guns, and aerial master stream appliances.

Question 8

Large Diameter Hose (LDH)

Answer 8

Ranges in diameters from 3 1/2-6 inches. Standard length of 50 ft per length or sometimes 100 ft. Water flow ranges from 350-1500 gpm. Used to deliver water to master stream appliances. NFPA recommends that a fire pumper carry at least 800 ft to 1250 ft of supply hose.

Question 9

Subtitle: Hose Construction (Answer)

Answer 9

Most fire hose is constructed with an inner waterproof liner surrounded by either one or two outer layers or reinforcements. The outer layer is commonly referred to as the jacket. The jacket provides the strength needed to withstand the high pressure exerted by the water inside the hose.

Question 10

1. Single Jacket Hose
2. Multiple Jacket (Double Jacket Hose)

Answer 10

1. A hose constructed with one layer of woven synthetic fiber.
2. A hose constructed with two or more layers. The outer layer is bonded to the inner woven layer. The jacket served as a protective covering, while the inner layer provided most of the strength needed to keep the hose from rupturing under pressure.

Question 11

Hose Liner

Answer 11

Inner part of layer of the hose. Prevents water from leaking out of the hose and provides a smooth inside surface for water to move against. Without this smooth surface, excessive friction would arise between the moving water and the inside of the hose, reducing the amount of pressure that could reach the nozzle.

Question 12

Threaded Hose Couplings

Answer 12

Used on most hose that are up to 3 inches in diameter. A length of fire hose has a male hose coupling with threads on the outside on one end and a female hose coupling with threads on the inside of the other end of the hose. The females hose coupling has a swivel, enabling a female end to secure around a male end without twisting the hose. Because a length of fire hose has a male and female coupling, the use of double male and double female adaptors is necessary in some situations.

Question 13

Five Piece Coupling Set

Answer 13

When FF need to attach a smaller hose to a larger hose or when they need to connect two hose that possess different threads, a reducer or adaptor can be added to both male and female hose couplings. They call this a Five Piece Coupling Set.

Question 14

What’s a disadvantage of threaded hose couplings?

Answer 14

They are prone to cross threading, which can result in leakage and possible separation.

Question 15

Spanner Wrench

Answer 15

Question 16

Threaded Hose Coupling’s are constructed with lugs (extensions or indentations) that provide leverage to aid in the coupling and uncoupling of hose couplings. There are 3 types of Lugs. What are they?

Answer 16

1. Pin Lugs
2. Recessed Lugs
3. Rocker Lugs

Question 17

Higbee Indicator

Answer 17

A notch or cut in the outside of one of the luge that indicates the position of the first thread on a coupling.

Question 18

Rubber Swivel Gasket (O- Ring)

Answer 18

An O shape piece of rubber that sits inside the swivel section of the female hose coupling. When a male hose coupling is tightened against it, it forms a seal that prevents water from leaking. If it is damage or missing, the hose couplings will leaks

Question 19

Storz-type Hose Coupling (Nonthreaded)

Answer 19

Designed so that the couplings on both end of the hose are the same. There is no male or female end. Each coupling can be attached to any other coupling of the same diameter. To connect, turn clockwise to lock in position and to disconnect, counter clockwise. Fire hydrants are not equipped with Storz-type hose couplings, so FF need to bring an Storz-type adaptor to connect to the LDH.

Question 20

Subtitle: Supply Hose (Answer)

Answer 20

Used to deliver water to an attack engine from a pressurized source, such as a fire hydrant, or from a supply engine that may be operating from a hydrant or from a static water source. NFPA recommends that a fire pumper carry at least 800 ft to 1250 ft of supply hose. Must be tested annually at least 200 psi or at a pressure not to exceed the service test pressure marked on the hose. It is intended to be used at pressures up to 185 psi.

Question 21

Forward Hose Lay

Answer 21

Hose laid out from the fire hydrant or supply engine, to the fire.

Question 22

Reverse Hose Lay

Answer 22

Hose lay from the fire to the hydrant or supply engine.

Question 23

Suction Hose

Answer 23

Used to supply water to the suction (or intake) side of the fire pump. There are two different types of suction hose, a soft sleeve suction hose and a hard suction hose.

Question 24

Soft Sleeve Suction Hose (Soft Suction Hose)

Answer 24

Is a short section of large diameter supply hose that is used to provide water from the large steamer outlet (the large port) on a fire hydrant or other pressurized water source to the suction side of the fire pump.

Question 25

Hard Suction Hose

Answer 25

A short section of a ridged 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. Usually come in 10ft or 20ft sections and can be as large as six inches. Can be made by rubber or plastic, but the plastic version is much lighter and more flexible. Long handles are provided on the female couplings of a hard suction hose to assist in tightening the hose. To draft water, it is essential to have an airtight connection at each coupling. Sometimes you will need a mallet to tighten or loosen it. Tapping it with anything metal can cause damage.

Question 26

Subtitle: Hose Rolls

Question 27

Straight or Storage Hose Roll

Answer 27

Used generally for handling or transporting a hose, as well as for rack storage of hose. Male coupling is at the center of the roll and the female coupling is on the outside of the roll

Question 28

Single- Doughnut Hose Roll

Answer 28

Used when the hose will be out into use directly from the rolled state. With this arrangement, and for easy access, both couplings are on the outside of the roll. The hose can be connect and extended by one FF. The hose unrolls as it is extended.

1. Lay the hose flat and in a straight line.
2. Locate the midpoint of the hose and from the midpoint, move 5 ft toward the make coupling end. From this point, start rolling.
3. At the end of the roll, wrap the excess hose of the female end over the make coupling to protect the threads on the male coupling. With this arrangement, and easy access, both couplings are on the outside of the roll.

Question 29

Twin-Donut Hose Roll

Answer 29

Used primarily to make a small compact roll that can be carried easily.

1. Lay the hose flat and in a straight line and then bring the male coupling alongside the females coupling.
2. Fold the far end over, and roll both sections of hose toward the couplings, creating a double roll. It can be carried by hand, by rope or by a hose strap.

Question 30

Self Locking Twin-Doughnut

Answer 30

Similar to a twin doughnut, but it forms it’s own loop.

1. Lay the hose flat and bring the couplings alongside of each other.
2. Move one side of the hose over the other, creating a loop. This creates the carrying shoulder loop.
3. Bring the loop back toward the couplings to the point where the hose crosses.
4. From the point where the hose crosses, begin to roll the hose toward the couplings.
5. Position the loops so that one is larger than the other. Pass the larger loop over the couplings and through the smaller loop, which secured the rolls together and forms the shoulder loop. The finished result is the self-locking twin doughnut roll.

Question 31

Subtitle: Hose Appliances (Answer)

Answer 31

Any device used in conjunction with a fire hose for the purpose of delivering water, including wyes, water thieves, siamese connections, adaptors, reducers, hose jackets, hose rollers, hose bridges, hose clamps and some valves.

Question 32

Wyes

Answer 32

A device that splits one hose into two or more separate lines. The word wye refers to a Y shaped part or object. When threaded couplings are used, a wye has one female connection and two or more male connections. The wye that is most commonly used in the fire service splits one 2 1/2 inch hose into two 1 1/2 hose lines. Primarily used on attack hose. We use the gated wye on our high-rise pack, connected to our 2 1/2 inch leader line and divides into two 1 1/2 outlets.

Question 33

Gated Wye

Answer 33

Equipped with two quarter turn ball valves so that the flow of water to each of the split lines or outlets can be controlled independently. The use of a gated wye avoids the need to shut down the hose supplying the eye to attach the second hose.

Question 34

Water Thief

Answer 34

Similar to a gated wye, but includes a 2 1/2 inch inlet, a 2 1/2 inch outlet, and two 1 1/2 inch outlets. It is used to supply many hose from one source. Used primarily on attack hose, and larger one’s are used with LDH. The water that comes from a single 2 1/2 inch inlet can be directed to two 1 1/2 inch outlets or one 2 1/2 inch outlet. Under most conditions, it is not possible to supply all three outlets at the same time because the capacity of the supply hose is limited. It can be placed near the entrance of a building to provide the water for interior attack hose. One 1 1/2 or two 1 1/2 can be used as an attack line, or they both can be shut down and a 2 1/2 inch hose can be used. Sometimes the 2 1/2 is used to knock down the fire and the two 1 1/2 are used for overhaul.

Question 35

Siamese Connection

Answer 35

A hose appliance that combined two or more hose lines into one. The most commonly used type of Siamese connection combines two 2 1/2 inch hose lines into a single 2 1/2 inch hose line. This scheme increases the flow of water on the outlet side of the Siamese connection. A Siamese connection that is used with threaded couplings has two female inlets and one male outlet. It may be equipped with quarter turn ball valves or clapper valve mechanisms. Used to supply hose and as an attack hose. A Siamese connection is sometimes used on an engine inlet to allow water to be received from two different supply lines. Also used to supply master stream appliances and ladder pipes. They are also commonly installed in the FDC that are used to supply water to standpipe and sprinkler system buildings.

Question 36

Adaptors: There are two types of adaptors. What are they?

Answer 36

Are devices that allow fire hose couplings to be safely interconnected with couplings of different sizes, threads, or mating surfacing or that allow fire hose couplings to be safely connected to other appliances.

Double female adaptor: Used to join two male hose couplings.

Double male adaptor: Used to join two female hose couplings.

They both are often employed when performing a reverse hose lay.

Question 37

Reducers

Answer 37

A type of adaptor used to attach a smaller- diameter hose to a larger- diameter hose. Usually the larger end has a female connection and the smaller end has a male connection. One type of reducer is used to attach a 2 1/2 inch hose to a 1 1/2 inch hose. Many 2 1/2 inch nozzles are constructed with a built in reducer so that a 1 1/2 inch hose can be attached for overhaul. Reducers are also used to attach a 2 1/2 inch supply hose to a larger suction inlet on a fire pumper.

Question 38

Hose Jacket

Answer 38

A device that is placed over a leaking section of hose to stop a leak. It provides a temporary fix until the section of the hose can be replaced. Should only be used when it is not possible to quickly replace the leaking section of hose. Can be used for both supply and attack hose.

Question 39

Hose Roller

Answer 39

A metal device used to prevent chafing or kinking at a sharp edge when the hose is being hoisted over the edge of a roof or over a windowsill.

Question 40

Hose Bridge

Answer 40

Protects a hose when it is necessary to drive a vehicle over a hose line.

Question 41

Hose Clamp

Answer 41

Used to temporarily stop the flow of water in a hose line. Often applied to supply hose, allowing a hydrant to be opened before the line is hooked up to the suction side of the attack engine. The FF at the hydrant does not have to wait for the pump operator to connect the line to the engine before opening the hydrant. As soon as the hose is connected, you can then release the clamp. It can also be used to stop the flow in a line if a hose ruptured or if an attack hose needs to be connected to a different appliance.

Question 42

Subtitle: Valves (Answer)

Name the 6 type of valves

Answer 42

Used to control the flow of water in a pipe or hose. Several different types of valves are used on fire hydrants, fire apparatus, standpipe, sprinkler systems and attack hose. The important thing to remember when opening and closing any valve or nozzle is to do it slowly to prevent water hammer.

1. Ball valve
2. Clapper mechanism (valve)
3. Gate valves
4. Butterfly valve
5. Four-way hydrant valve
6. Remote- controlled hydrant valve

Question 43

Ball Valve

Answer 43

Used in nozzles, gated wyes, and engine discharge gates. Consist of a ball with a hole in the middle. When the hole is lined up with the inlet and the outlet, water flows through it. As the ball is rotated, the flow of water is gradually reduced until it is shut off completely.

Question 44

Clapper Mechanism (Valve)

Answer 44

Prevents water from flowing in a backwards direction. They close automatically if water flows against them. Some Siamese valves are equipped with clapper mechanisms. The most common use of a clapper mechanism is in FDC’s standpipe systems and automatic sprinkler systems. They allow the FF to connect a hose to one side of the FDC and flow water while the other side of the FDC is uncapped. Discussed more in Chapter 26 Fire, Detection, Suppression and Smoke Control Systems.

Question 45

Gate Valve

Answer 45

Found on hydrants and on sprinkler systems. Rotating a spindle causes a gate to move slowly across the opening. The spindle is rotated by turning it with a wrench or a wheel-type handle.

Question 46

Butterfly Valve

Answer 46

Often found on the large pump intake connections where a hard suction hose or soft suction sleeve hose is connected. They are opened or closed by rotating a handle one quarter turn.

Question 47

Four-way Hydrant Valve

Answer 47

This appliance which is attached to a fire hydrant, enables water to flow directly from the fire hydrant to the attack engine close to the fire. By placing a second fire pumper at the fire hydrant, it is possible to boost the pressure in the supply hose line by changing the position of the four way hydrant valve to enable the second arriving fire pumper to pump from the hydrant into the supply line. It can boost pressure in a supply hose without interrupting the flow of water. The use of a four-way hydrant valve is covered more in chapter 16 Supply Line and Attack Line.

Question 48

Remote-controlled Hydrant Valve

Answer 48

Attached to a fire hydrant. They allow the operator to turn the hydrant on without flowing water into the hose line. These valves are operated by the pump operator using radio control. They free up all personnel assigned to hydrant duty for other tasks and give the pump driver/operator control over the hydrant from a distance.

Question 49

Subtitle: Master Stream Appliances or Devices (Answer)

There are 3 main MSA, what are they?

Answer 49

Master stream appliances or devices are used to produce high volume water streams for large fires. Most master stream appliances discharge between 350 gpm and 1500 gpm, though much larger capacities are available. MSA can discharge a stream of water farther than a hand line. Can be manually or remotely operated from a fixed position.

1. Deck Gun
2. Portable Monitor
3. Elevated Master Stream Appliances (Ladder Pipe)

Question 50

Deck Gun

Answer 50

Permanently mounted on and operated from a vehicle, and it is equipped with a pipping system that delivers water to the guns. Sometimes a hose must be connected to the deck gun in order to place it in operation.

Question 51

Portable Monitor

Answer 51

A master stream appliance that can be carried on an apparatus and removed from an apparatus when needed. It places on the ground and hose lines are connected to the portable monitor to supply the water. Most of these devices comes equipped with either one, two, or three inlets. Portable monitors are built with 2 1/2 inch inlets or with a LDH inlet. Smaller portable monitors are sometimes set up attached to pre connected hose. This allows the monitor to be quickly placed in service by one FF.

Question 52

Elevated Master Stream Appliances (Ladder Pipe)

Answer 52

Mounted on the aerial apparatus such as aerial ladders, tower ladders, elevated platforms, or specially hydraulically operated master stream booms.

A Ladder pipe is a removable elevated master stream device that is mounted close to the top of an aerial ladder or tower ladder and supplied by a hose. Aerial apparatus are usually equipped with permanently mounted waterways that supply the master stream appliances that are mounted close to the top of the aerial. (More in Chapter 17, Fire Suppression).

Question 53

Subtitle: Nozzles (Answer)

Nozzles can be classified into three groups based on the size of the hose. What are they?

Answer 53

Attached to the discharge end of the attack hose to give shape and direction to fire streams. Nozzles are used on all sizes of hose and on master stream appliances.

1. Low-volume nozzles
2. Handline nozzles
3. Master stream nozzles

Question 54

Low Volume Nozzle

Answer 54

Flow 40 gpm or less. In structure firefighting, low volume nozzles are primarily used for booster hose; their use is limited to small outdoor fires.

Question 55

Handline Nozzles

Answer 55

Used on hose ranging from 1 1/2 inch to 2 1/2 inch in diameter. Handline nozzle streams usually flow between 60 and 350 gpm.

Question 56

Master Stream Nozzle

Answer 56

Used on deck guns, portable monitors, and ladder pipes that flow more than 350 gpm.

Low volume and handline nozzles incorporate a nozzle shut off valve that is used to control the flow of water. The shutoff valve for a master stream appliance is usually separate from the nozzle itself.

Question 57

Fire Stream

Answer 57

Streams of water or foam agent

Question 58

Break Away Fire Nozzle

Answer 58

The tip from this nozzle can be separated from the shut off valve. This nozzle allows FF to shut off the flow, unscrew the nozzle tip, and then add more lengths of hose to extend the hose without shutting off the valve at the engine.

Question 59

Nozzles can also be classified by type. All nozzles direct the water stream into a certain shape or pattern. Some nozzles incorporate a mechanism that can automatically adjust the flow, based on the water’s volume and pressure. There are two different types of nozzles that are manufactured for the fire service, which is?

Answer 59

1. Smooth-bore nozzles
2. Fog-stream nozzles

Question 60

What is a Smooth-bore Nozzle?

What are the 4 advantages?

What is the 1 disadvantages?

Answer 60

Produce a solid stream or a solid column of water. Manufactured to fit both hand lines and master stream appliances. Those that are used for master stream appliances often consist of a set of tips, where each successive tip in the stack has a smaller diameter opening. Tips can be quickly added or removed to provide the desired stream size.

ADVANTAGES:
1. Longer reach than a fog nozzle operating at a straight stream setting.

2. They operate at lower pressures than fog nozzles. Most smoothbore nozzles are designed to operate at 50 psi, whereas fog nozzles generally require pressures of 75 to 100 psi. Lower nozzle pressure makes it easier for a FF to handle a nozzle.
3. A straight or solid stream Extinguishes a fire with less air movement and less disturbance of the thermal layering than does a fog stream, which in turn makes the heating condition less intense for FF during an interior attack.
4. It’s easier for the nozzle operator to see the pathway of a solid stream than a fog stream.

DISADVANTAGES
1. Smooth-bore nozzles are not as effective for hydraulic ventilation.

Question 61

Fog-stream Nozzle

What are the 3 advantages?

What is the 1 disadvantages?

Answer 61

Can be adjusted to produce a straight stream or to separate the water into droplets to produce a variety of fog streams. The size of the droplets and the discharge pattern can be varied by adjusting the nozzle setting to a narrow fog cone of less than 45 degrees to a wide angle fog pattern that is close to 90 degrees. Fog nozzles cannot produce a solid stream, only straight or fog stream.

ADVANTAGES
1. They can easily be adjusted to produce a variety of streams.

2. Effective at absorbing heat and can be used to create a water curtain to protect FF from extreme heat.
3. Can be used to hydraulically ventilate to ventilate the room. To produce an effective fog stream the nozzle must be operated at the pressure recommended by the manufacturer.

DISADVANTAGES
1. Can be used to hydraulically ventilate, but can result in a sudden heat inversion in a room, which then pushes hot steam and gases down onto the FF. Research have shown that if used incorrectly, some applications of a fog pattern can push the fire into unaffected areas of a building by the addition of air flow.

Question 62

There are 3 type of streams that nozzles make. What are they?

Answer 62

1. Fog Stream
2. Solid Stream
3. Straight Stream

Question 63

Smooth-bore tip

Answer 63

A tip on a smooth-bore nozzle that gradually decreases the diameter is of the solid stream to a size smaller than the hose diameter.

Question 64

There are three types of fog stream nozzles. The difference among the types is related to the water delivery capability. What are they, what do they do and their discharge flow?

Answer 64

1. Fixed-gallonage fog nozzle: delivers a preset flow at the rated discharge pressure, which can be designed to flow 30, 60, or 100 gpm.
2. Adjustable-gallonage fog nozzle: allows the operator to select a desired flow from several settings by rotating a selector bezel to adjust the size of the opening. It has the options of flowing 60, 95, or 125 gpm. Once the setting is chosen, the nozzle delivers the rates flow for as long as the rated pressure is provided at the nozzle.
3. Automatic-adjusting fog nozzle: Can deliver a wide range of flows. Operating range from 90 to 225 gpm, while maintaining 100 psi discharge pressure.

Question 65

There are four other type of nozzles. What are they and what do they do?

Answer 65

1. Piercing Nozzle: Used to make a hole in automobile sheet metal, aircraft, or building walls or floors to extinguish the fires behind these surfaces.
2. Cellar Nozzles: Used to fight fires in cellars or basements and other inaccessible places such as attics and cockloft. These nozzles discharge water in a wide circular pattern as the nozzle is lowered vertically through a hole into the cellar. They work like a large sprinkler head.
3. Bresnan distributor nozzles: Used to fight fires in cellars or basements and other inaccessible places such as attics and cockloft. These nozzles discharge water in a wide circular pattern as the nozzle is lowered vertically through a hole into the cellar. They work like a large sprinkler head.
4. Water Curtain Nozzle: Used to deliver a flat screen of water that then forms a protective sheet (curtain) of water on the surface of an exposed building