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Ventilation

Ventilation. 14. Objectives (1 of 3). Define ventilation as it relates to fire suppression activities. List the effects of properly performed ventilation on fire and fire suppression activities. Describe how fire behavior principles affect ventilation.

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Ventilation

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  1. Ventilation

  2. 14 Objectives (1 of 3) • Define ventilation as it relates to fire suppression activities. • List the effects of properly performed ventilation on fire and fire suppression activities. • Describe how fire behavior principles affect ventilation. • Describe how building construction features within a structure affect ventilation.

  3. 14 Objectives (2 of 3) • Define horizontal ventilation. • List the principles, advantages, limitations, and effects of horizontal ventilation. • List the principles, advantages, limitations, and effects of vertical ventilation. • List the principles, advantages, limitations, and effects of natural ventilation. • List the principles, advantages, limitations, and effects of mechanical ventilation.

  4. 14 Objectives (3 of 3) • List the principles, advantages, limitations, and effects of positive-pressure and negative-pressure ventilation. • List the principles, advantages, limitations, and effects of hydraulic ventilation. • List safety precautions for ventilating roofs. • List the basic indicators of roof collapse. • Explain the role of ventilation in the prevention of backdraft and flashover.

  5. 14 Introduction (1 of 2) • Ventilation • The process of removing smoke, heat, and toxic gases from a burning building and replacing them with cooler, cleaner, more oxygen-rich air

  6. 14 Introduction (2 of 2) • Primary method of fire spread is convection • Mushrooming occurs when the products of combustion reach the highest point. • Products of combustion present a risk to fire fighters and occupants.

  7. 14 Benefits of Proper Ventilation (1 of 2) • Locate trapped occupants faster • Fresh air to occupants overcome by smoke • Advance hose lines more rapidly and safely • Reduce backdraft and flashover • Limits fire spread • Reduces property loss

  8. 14 Benefits of Proper Ventilation (2 of 2) Unvented structure Vented structure

  9. 14 Factors Affecting Ventilation (1 of 2) • Convection currents • Mechanical ventilation activities • Negative-pressure • Positive-pressure • Hose streams

  10. 14 Factors Affecting Ventilation (2 of 2) • Wind and atmospheric forces • Wind speed and direction • Temperature and humidity

  11. 14 Building Construction • The way a building is constructed will affect ventilation operations.

  12. 14 Fire-Resistive Construction • Construction design • Structural components noncombustible • Compartmentalization • Paths of fire spread • Heating, Ventilation, and Air Conditioning • Stairways • Elevator shafts • Roofs generally of steel or concrete

  13. 14 Ordinary Construction • Construction design • Exterior walls noncombustible • Interior walls/floors of wood • Roof is wood decking and structural support • Paths of fire spread • Plumbing and electrical chases • Void spaces in walls • Cockloft

  14. 14 Wood-Frame Construction • Construction design • Similar to ordinary but exterior walls are combustible • Paths of fire spread • Attics and cocklofts • Wood truss roofs and floors • Construction types • Balloon-frame • Platform

  15. 14 Ventilation and Tactical Priorities • Ventilation is directly related to tactical priorities.

  16. 14 Venting for Life Safety • Life safety is the primary goal. • Gives occupants a greater chance to survive • Makes searches faster • Limits fire spread to other occupants and fire fighters

  17. 14 Venting for Confinement • Second highest priority is contain the fire and control the situation • Prevents fire spread • Makes fire attacks easier

  18. 14 Venting for Property Conservation • Limits amount of damaged areas • Rapid removal limits amount of permanent damage.

  19. 14 Location and Extent of Smoke and Fire Conditions (1 of 3) • Factors to consider • Size of the fire • Stage of combustion • Location within the building • Available ventilation options

  20. 14 Location and Extent of Smoke and Fire Conditions (2 of 3) • Where to ventilate • As close to the fire as possible • Directly over the seat • Through an open door or window that opens outside • If unable to vent close to the fire • Predict how location will affect the fire • Anticipate fire spread and locate hose lines for protection

  21. 14 Location and Extent of Smoke and Fire Conditions (3 of 3) • Determine fire size, intensity, and fuel • Light smoke, moving lazily—small fire of ordinary combustibles • Large amount of black rolling smoke—petroleum base fire • Hotter the fire, the faster the smoke moves • Cool days may cause smoke inversion. • Sprinkler activation may cause the smoke to cool and act as a fog.

  22. 14 Types of Ventilation • Two basic types of ventilation • Horizontal • Utilizes horizontal openings in a structure such as doors and windows • Vertical • Involves openings in the roofs or floors

  23. 14 Horizontal Ventilation (1 of 2) • Commonly used in • Residential fires • Room-and-contents fires • Fires that can quickly be controlled • Generally fast and easy to use • Can be used from inside or outside the building

  24. 14 Horizontal Ventilation (2 of 2) • Most effective when opening is directly to outside • More difficult when there are no openings • Limits structural damage • May utilize natural and mechanical methods

  25. 14 Methods of Ventilation • Natural • Depends on convection currents, wind, and other natural air movement • Mechanical • Uses mechanical means to augment natural ventilation

  26. 14 Natural Ventilation • Used when air currents are adequate • Used when ventilation is needed quickly • Open leeward side of building first, then windward.

  27. 14 Breaking Glass • General rules • Try to open first. • Wear full protective clothing and eye protection. • Ensure no one will be struck by the glass. • Always use a tool. • Keep hands above or to the side of the glass. • Use a tool to clear remaining glass.

  28. 14 Opening Doors • Provide large openings • May compromise entry/exit points • May be best for fresh air points • Good location for mechanical ventilation devices

  29. 14 Mechanical Ventilation • Methods of Mechanical Ventilation • Negative-pressure • Positive-pressure • Hydraulic

  30. 14 Negative-Pressure Ventilation • Uses fans called ejectors to exhaust smoke and heat • Limitations: • Positioning • Power source • Maintenance • Air flow control • Advantages • Explosion-proof motors

  31. 14 Positive-Pressure Ventilation • Uses large, powerful fans to force fresh air into a structure. • Advantages: • Quick and efficient • Increased safety • Disadvantages • May spread the fire • May increase carbon monoxide levels

  32. 14 Hydraulic Ventilation • Uses a fog or broken pattern stream to create a pressure differential • Advantages • Can move several thousand cubic feet of air per minute • Does not require specialized equipment • Disadvantages • Water damage • Safety hazards

  33. 14 Vertical Ventilation (1 of 2) • Releases combustion products vertically • Occurs naturally if there is an opening • May be assisted by mechanical means • Usually involves making openings in roof

  34. 14 Vertical Ventilation (2 of 2) • Make opening close to seat of fire • Determine hottest point

  35. 14 Safety Considerations (1 of 2) • Structural stability of the roof • Falling from the roof • Two exit routes • Not getting opening between you and the exit • Have a charged hose line • Leave the area once done

  36. 14 Safety Considerations (2 of 2) • “Sound” the roof • Walk on areas of greatest support • Make cuts from • Upwind • With clear exit path • While standing on firm section

  37. 14 Basic Indicators of Roof Collapse • Spongy feeling • Visible sagging • Roof separating from the walls • Structural failure in another portion of building • Sudden increase in fire intensity

  38. 14 Roof Construction • Two components • Support structure • Solid beams of wood, steel, or concrete • System of trusses of wood, steel, or wood and steel • Roof covering • Made of various water repellant materials • Supported by the roof decking

  39. 14 Types of Roof Failures • Support system failure • Supporting structure fails • Often a sudden and total collapse • Areas with heavy snow loads more prone • Roof covering failure • Burns through roof covering close to seat of fire • Spreads out causing roof failure • Areas with light snow loads more prone

  40. 14 Solid Beam vs. Truss • May not be able to tell by looking • Solid beam • Girders, beams, and rafters • Truss • Lightweight components, often 2" x 4" wood with gussets or staples • Steel bars welded together • Triangular configuration

  41. 14 Roof Designs (1 of 2) • Flat roofs • Can be constructed with many types of supports, decking, and materials • Pitched roofs • Have a visible slope for rain, ice, and snow runoff

  42. 14 Roof Designs (2 of 2) • Arched roofs • Generally found in commercial structures to create a large span without columns

  43. 14 Objectives of Vertical Ventilation • Provide the largest opening • Put in an appropriate location • Use the least amount of time • Use the safest technique

  44. 14 Vertical Ventilation Assessment • Construction features • Indications of fire damage • Safety zones and exit paths • Built-in roof openings • Locate at highest point and over seat of fire • May need to cut an examination hole • One hole is better than several small ones • Minimum size 4' x 4'

  45. 14 Tools Used in Vertical Ventilation • Power saws • Axes • Halligans • Pry bars • Tin cutters • Pike poles and other types of hooks • Utility rope

  46. 14 Types of Roof Cuts • Rectangular cut • Louver cut • Triangle cut • Peak cut • Trench cut

  47. 14 Rectangular or Square Roof Cut • Requires four cuts completely through the decking • Use care to not cut structural supports. • Stand upwind and have a safe exit. • Can use a triangle cut to help pry up • If several layers exist, may have to peel a layer at a time

  48. 14 Louver Roof Cut • Used for flat or sloping roofs with plywood decking • Power saw or axe used to make the cuts • Can quickly create a large opening

  49. 14 Triangle Roof Cut • Used to prevent metal decking from rolling away as it is cut • A saw or axe is used. • Several may be needed because of their small size.

  50. 14 Peak Roof Cut • Used for peaked roofs with plywood sheeting • A tool is used to reveal the roof covering along the peak. • A power saw or axe is used to make a series of vertical cuts between the supports.

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