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definitions - Fire_hose

fire hose (n.)

1.a large hose that carries water from a fire hydrant to the site of the fire

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synonyms - Fire_hose

fire hose (n.)

fire engine, hose, hosepipe

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analogical dictionary



fire hose (n.)


Wikipedia

Fire hose

                   
  Indoor firehose
Firehose.jpg
 

A fire hose is a high-pressure hose used to carry water or other fire retardant (such as foam) to a fire to extinguish it. Outdoors, it is attached either to a fire engine or a fire hydrant. Indoors, it can be permanently attached to a building's standpipe or plumbing system. It was invented by Hero of Alexandria in the basis of Ctesibius' double action piston pump.[citation needed]

The usual working pressure of a firehose can vary between 8 and 20 bar (800 and 2,000 kPa; 116 and 290 psi), while its bursting pressure can be up to 83 bar (8,300 kPa; 1,204 psi).[citation needed]

After use, a fire hose is usually hung to dry as standing water that remains in a hose for an extended period of time can deteriorate the material and render it unreliable or unusable. As such, the typical fire station often has a high structure to accommodate the length of a hose for such preventative maintenance.

On occasion, fire hoses are used for crowd control (see also water cannon), including most notably by Bull Connor in Alabama against civil rights protestors in 1964.[citation needed] While still a common practice in many countries,[citation needed] it is no longer used in the U.S.

Contents

  History

Until the middle 19th century most fires were fought by water transported to the scene in buckets. Original hand pumpers discharged their water through a small pipe or monitor attached to the top of the pump tub.[1] It was not until the late 1860s that hose became available to convey water more easily from the hand pumps, and later steam pumpers, to the fire.[2]

In Holland, the Superintendent of the Fire Brigade, Jan van der Heyden, and his son Nicholaas took firefighting to its next step with the fashioning of the first fire hose in 1673.[3] These 50-foot lengths of leather were sewn together like a boot leg.[4] Even with the limitations of pressure, the attachment of the hose to the gooseneck nozzle allowed closer approaches and more accurate water application. Van der Heyden was also credited with an early version of a suction hose using wire to keep it rigid.[5] Early fire hose was fabricated of leather, fastened together with copper rivets and washers and, as can be imagined, it was heavy, stiff, and commonly leaked.

Around 1890, unlined fire hose made of circular woven linen yarns began to replace leather hose. It was certainly much lighter. As the hose fibers, made of flax, became wet, they swelled up and tightened the weave, causing the hose to become watertight. Unlined hose, because of its lack of durability, was rapidly replaced with rubber hose in municipal fire service use. It continued to be specified, however for use on interior hose lines and hose racks until the 1960s,[citation needed] and is still used in some areas for forestry applications.

Following the invention of the vulcanization process as a means of curing raw soft rubber into a harder, more useful product, the fire service slowly made the transition from bulky and unreliable leather hose to the unlined linen hose, then to a multi-layer, rubber lined and coated hose with an interior fabric reinforcement. This rubber hose was as bulky, heavy, and stiff as leather hose but was not prone to leaking. It also proved more durable than unlined linen hose. Its wrapped construction resembled some hose used today by industry, for example, fuel delivery hose used to service airliners.[2]

  Modern Usage

TokyoMetropolitanFireDepartment-FireHoseDrill.ogv
 
  Tokyo Fire Department conducting a fire hose drill

Modern fire hoses use a variety of natural and synthetic fabrics and elastomers in their construction. These materials allow the hoses to be stored wet without rotting and to resist the damaging effects of exposure to sunlight and chemicals. Modern hoses are also lighter weight than older designs, and this has helped reduce the physical strain on firefighters.[6] Various devices are becoming more prevalent that remove the air from the interior of fire hose, commonly referred to as fire hose vacuums. This process makes hoses smaller and somewhat rigid, thus allowing more fire hose to be packed or loaded into the same compartment on a fire fighting apparatus.[7]

  Types

There are several types of hose designed specifically for the fire service. Those designed to operate under positive pressure are called discharge hoses. They include attack hose, supply hose, relay hose, forestry hose, and booster hose. Those designed to operate under negative pressure are called suction hoses.

Types
Name Definition
Attack hose is a fabric-covered, flexible hose used to bring water from the fire pumper to the nozzle. This hose ranges in nominal inside diameter from
1.5 to 3 in (38 to 76 mm) and is designed to operate at pressures up to about 400 psi (2,760 kPa). The standard length is 50 ft (15.24 m).[8]
Supply and relay hoses are large-diameter, fabric-covered, flexible hoses used to bring water from a distant hydrant to the fire pumper or to relay water from one pumper to another over a long distance. These hoses range in nominal inside diameter from 3.5 to 5.0 in (89 to 127 mm). They are designed to operate at pressures up to about 300 psi (2,070 kPa) for the smaller diameters and up to 200 psi (1,380 kPa) for the larger diameters. The standard length is 100 ft (30.48 m).[8]
Forestry hose is a fabric-covered, flexible hose used to fight fires in grass, brush, and trees where a lightweight hose is needed in order to maneuver it over steep or rough terrain. Forestry hose comes in 1.0 and 1.5 in (25 and 38 mm) nominal inside diameters and is designed to operate at pressures up to about 450 psi (3,100 kPa). The standard length is 100 ft (30.48 m).
Booster hose is a rubber-covered, thick-walled, flexible hose used to fight small fires. It retains its round cross-section when it is not under pressure and is usually carried on a reel on the fire pumper, rather than being stored flat. Booster hose comes in 0.75 and 1.0 in (19 and 25 mm) nominal inside diameters and is designed to operate at pressures up to 800 psi (5,520 kPa). The standard length is 100 ft (30.48 m).[9]
Suction hose sometimes called hard suction, is usually a rubber-covered, semi-rigid hose with internal metal reinforcements. It is used to suck water out of unpressurized sources, such as ponds or rivers, by means of a vacuum. Suction hose ranges in nominal inside diameter from 2.5 to 6.0 in (64 to 152 mm). The standard length is 10 ft (3.05 m).

Another suction hose, called a soft suction, is actually a short length of fabric-covered, flexible discharge hose used to connect the fire pumper suction inlet with a pressurized hydrant. It is not a true suction hose as it cannot withstand a negative pressure.[9]

  Raw Materials

In the past, cotton was the most common natural fiber used in fire hoses, but most modern hoses use a synthetic fiber like polyester or nylon filament. The synthetic fibers provide additional strength and better resistance to abrasion. The fiber yarns may be dyed various colors or may be left natural.[10]

Coatings and liners include synthetic rubbers, which provide various degrees of resistance to chemicals, temperature, ozone, ultraviolet (UV) radiation, mold, mildew, and abrasion. Different coatings and liners are chosen for specific applications.[citation needed]

Hard suction hose consists of multiple layers of rubber and woven fabric encapsulating an internal helix of steel wire. Some very flexible hard suction hose uses a thin polyvinyl chloride cover with a polyvinyl chloride plastic helix.

  Connections

Hose connections are often made from brass, though hardened aluminum connections are also specified.[10] In countries which use quick-action couplers for attack hoses, forged aluminum has been used for decades because the weight penalty of brass for Storz couplers is higher than for threaded connections.

Threaded hose couplings are used in the USA, Canada, and Britain. Each of these countries uses a different kind of threading. Many other countries have standardized on quick-action couplings, which don't have a male and female end, but connect either way. Again, there is no international standard: In Central Europe, the Storz Connector is used by several countries. Belgium and France use the Guillemin connector. Spain, Sweden and Norway each have their own quick coupling. Countries of the former Soviet Union area use the Gost coupling.

In the USA, a growing number of departments use Storz couplers for large diameter supply hose, or other quick-action couplings. Because the usage isn't standardized, mutual aid apparatus might have a small compartment dedicated to a multitude of hose adapters.

The different styles of hose couplings have influenced fireground tactics. Apparatus in the USA features "preconnects": Hose for a certain task is put into an open compartment, and each attack hose is connected to the pump. Time-consuming multiple connections or problems with male and female ends are avoided by tactics. In countries where Storz (or similar) connectors have been used for attack hoses for generations, firefighters drop a manifold at the border of the danger zone, which is connected to the apparatus by a single supply line. As a result, the tiny item "hose coupler" has also influenced the looks and design of fire apparatus.

  Design

The woven fabric that reinforces fabric-covered fire hoses can come in one or more layers, or 'jackets': Single jacket hoses find use in forestry and industrial applications, for example, since weight is at a premium or use is infrequent, respectively. On the other hand, the frequent, sometimes harsh use brought about by urban firefighting makes the improved durability provided by double jacket hoses worth their greater weight.

To prevent water from seeping through the hose jacket, a thin tube of extruded rubber or other elastomer usually lines jacketed hoses; however, the lining of some forestry hose is perforated so that it can "weep" a little water through the jacket as a protection against embers that might otherwise burn the hose.

Another type of fabric hose construction is called through-the-weave extrusion. In this design, a single fabric jacket receives lining and coating of rubber from an extruder that simultaneously forces the rubber into and through the jacket weave to form an interlocking bond. Through-the-weave construction produces a lighter weight hose and is primarily used for larger-diameter supply hoses.[10]

  Manufacturing Process

Fire hose is usually manufactured in a plant that specializes in providing hose products to municipal, industrial, and forestry fire departments. Here is a typical sequence of operations used to manufacture a double jacket, rubber-lined fire hose.[11]

  Preparing the yarn

  • There are two different fiber yarns that are woven together to form a hose jacket. The yarns that run lengthwise down the hose are called warp yarns and are usually made from spun polyester or filament nylon. They form the inner and outer surfaces of the jacket and provide abrasion resistance for the hose. The yarns that are wound in a tight spiral around the circumference of the hose are called the filler yarns and are made from filament polyester. They are trapped between the crisscrossing warp yarns and provide strength to resist the internal water pressure. The spun polyester warp yarns are specially prepared by a yarn manufacturer and are shipped to the hose plant. No further preparation is needed.
  • The continuous filament polyester fibers are gathered together in a bundle of 7-15 fibers and are twisted on a twister frame to form filler yarns. The plied and twisted yarn is then wound onto a spool called a filler bobbin.[11]

  Weaving the jackets

  • The warp yarns are staged on a creel, which will feed them lengthwise down through a circular loom. Two filler bobbins with the filler yarn are put in place in the loom.
  • As the loom starts, the filler bobbins wind the filler yarn in a circle through the warp yarns. As soon as the bobbins pass, the loom crisscrosses each pair of adjacent warp yarns to trap the filler yarn between them. This weaving process continues at a high speed as the lower end of the jacket is slowly drawn down through the loom, and the bobbins continue to wrap the filler yarns around the circumference of the jacket in a tight spiral. The woven jacket is wound flat on a take-up reel.
  • The inner and outer jackets are woven separately. The inner jacket is woven to a slightly smaller diameter so that it will fit inside the outer jacket. Depending on the expected demand, several thousand feet of jacket may be woven at one time. After an inspection, the two jackets are placed in storage.
  • If the outer jacket is to be coated, it is drawn through a dip tank filled with the coating material and then passed through an oven where the coating is dried and cured.[11]

  Extruding the liner

  • Blocks of softened, sticky, uncured rubber are fed into an extruder. The extruder warms the rubber and presses it out through an opening between an inner and outer solid circular piece to form a tubular liner.
  • The rubber liner is then heated in an oven where it undergoes a chemical reaction called vulcanizing, or curing. This makes the rubber strong and pliable.
  • The cured liner passes through a machine called a rubber calendar, which forms a thin sheet of uncured rubber and wraps it around the outside of the liner.[11]

  Forming the hose

  • The jackets and liner are cut to the desired length. The inner jacket is inserted into the outer jacket, followed by the liner.
  • A steam connection is attached to each end of the assembled hose, and pressurized steam is injected into the hose. This makes the liner swell against the inner jacket and causes the thin sheet of uncured rubber to vulcanize and bond the liner to the inner jacket.
  • The metal end connections, or couplings, are attached to the hose. The outer portion of each coupling is slipped over the outer jacket and an inner ring is inserted into the rubber liner. A tool called an expansion mandrel is placed inside the hose and expands the ring. This squeezes the jackets and liner between the ring and serrations on the outer portion of the coupling to form a seal all the way around the hose.[11]

  Pressure testing the hose

  • Standards set by the National Fire Protection Association require that each length of new double jacket, rubber-lined attack hose must be pressure tested to 600 psi (4,140 kPa), but most manufacturers test to 800 psi (5,520 kPa). Subsequent to delivery, the hose is tested annually to 400 psi (2,760 kPa) by the fire department. While the hose is under pressure, it is inspected for leaks and to determine that the couplings are firmly attached.
  • After testing the hose is drained, dried, rolled, and shipped to the customer.[11]

  Quality Control

In addition to the final pressure testing, each hose is subjected to a variety of inspections and tests at each stage of manufacture. Some of these inspections and tests include visual inspections, ozone resistance tests, accelerated aging tests, adhesion tests of the bond between the liner and inner jacket, determination of the amount of hose twist under pressure, dimensional checks, and many more.[11]

  Future

The trend in fire hose construction over the last 20 years has been to the use of lighter, stronger, lower maintenance materials. This trend is expected to continue in the future as new materials and manufacturing methods evolve. One result of this trend has been the introduction of lightweight supply hoses in diameters never possible before. Hoses up to 12 in (30.5 cm) in diameter with pressure ratings up to 150 psi (1,030 kPa) are now available. These hoses are expected to find applications in large-scale industrial firefighting, as well as in disaster relief efforts and military operations.[11]

Fire hoses come in a variety of diameters. Lightweight, single-jacket construction, ¾, 1, and 1½ inch diameter hose lines are commonly used in wildland firefighting applications. Heavy duty double, double-jacket, 1½, 1¾, 2, 2½, and on occasion 3 inch lines are used for structural applications. Supply lines, used to supply fire apparatus with water, are frequently found in 3, 3½, 4, 4½, 5 and 6 inch diameters.

There are several systems available for repairing holes in fire hoses the most common being the Stenor Merlin which offer patching materials for Type 1 2 and 3 hoses, the patches come in two different sizes and 2 different colours (red and yellow). The patches are vulcanised onto the hose and will last the life of the hose. The Stenor Merlin is used in every continent in the world and is manufactured in the UK by Fire Hosetech

  References

  1. ^ Matheson, Ewing. Aid book to engineering enterprise abroad. London: London New York, E. & F. N. Spon, 1878. Print.
  2. ^ a b Fornell, David P. Fire stream management handbook. Saddle Brook, N.J: Fire Engineering, 1991. Print.
  3. ^ Sutton, Peter C. Jan van der Heyden 1637–1712. New York: Yale UP, 2006. Print.
  4. ^ "Development of Fire Hose." Firefighter Central. Web. 19 October 2009. Firefightercentral.com
  5. ^ Gilbert, Darrell. "History of the Fire Hose." Crown Shop Talk. Web. 19 October 2009. Crownshoptalk.com
  6. ^ "Fire Hose." How Products are Made. Ed. Stacey L. Blachford. Gale Cengage, 2002. eNotes.com. 2006. 22 November 2009 Fire-hose
  7. ^ Greycheck, Ronald (12 2010). "The Evolution of the Hosepack". Wildland Fire Magazine. 
  8. ^ a b NFPA 1961: Fire Hose. National Fire Protection Association, 1997.
  9. ^ a b NFPA 1963: Fire Hose Connections. National Fire Protection Association, 1993.
  10. ^ a b c Goldwater, Sam and Robert F. Nelson. "Large-Diameter Super Aquaduct Flexible Pipeline Applications in the Fire Service." Fire Engineering (April 1997): 147-149.
  11. ^ a b c d e f g h "Fire Hose." How Products are Made. Ed. Stacey L. Blachford. Gale Cengage, 2002. eNotes.com. 2006. 22 November 2009 Fire-hose
   
               

 

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