S290 Unit 1
WildlandFire
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About This Presentation
S290 Unit 1
Slide Content
1-1-S290-EPUnit 1
The Fire Environment
Unit 1
The Fire Environment
The Fire Environment
Unit 1
The Fire Environment
1-2-S290-EPUnit 1
The Fire Environment
Unit 1 Objectives
1.Describe the three components of the
wildland fire environment.
2.List and give examples of the three
methods of heat transfer.
3.List three methods of mass transport of
firebrands on wildland fire.
4.Explain the relationship between flame
height/length and its relationship to the
fireline intensity.
The Fire Environment
Unit 1 Objectives
1.Describe the three components of the
wildland fire environment.
2.List and give examples of the three
methods of heat transfer.
3.List three methods of mass transport of
firebrands on wildland fire.
4.Explain the relationship between flame
height/length and its relationship to the
fireline intensity.
1-3-S290-EPUnit 1
The Fire Environment
5. Describe primary environmental factors
affecting ignition, fire intensity, and rate of
spread of wildland fires.
6.Discuss the relationship of wildland fires of
different intensities to their environments.
7.Describe the behavior of wildland fires
using standard fire behavior terminology.
Unit 1 Objectives
The Fire Environment
5. Describe primary environmental factors
affecting ignition, fire intensity, and rate of
spread of wildland fires.
6.Discuss the relationship of wildland fires of
different intensities to their environments.
7.Describe the behavior of wildland fires
using standard fire behavior terminology.
Unit 1 Objectives
1-4-S290-EPUnit 1
The Fire Environment
Fire Environment Triangle
The Fire Environment
Fire Environment Triangle
1-5-S290-EPUnit 1
The Fire Environment
Fire Environment Triangle
•The fire triangle
– heat
– oxygen
– fuel
And introduced
•The fire behavior triangle
–fuels
–weather
–topography
S-190, Introduction to Wildland Fire Behavior
explained:
The Fire Environment
Fire Environment Triangle
•The fire triangle
– heat
– oxygen
– fuel
And introduced
•The fire behavior triangle
–fuels
–weather
–topography
S-190, Introduction to Wildland Fire Behavior
explained:
1-6-S290-EPUnit 1
The Fire Environment
Fire Environment Triangle
•Weather
•Topography
•Fuels
The Three Components of the
Wildland Fire Environment:
The Fire Environment
Fire Environment Triangle
•Weather
•Topography
•Fuels
The Three Components of the
Wildland Fire Environment:
1-7-S290-EPUnit 1
The Fire Environment
Three Methods of Heat Transfer
Conduction
Convection
Radiation
Transfer of heat through solids
Transfer of heat by movement of air
Transfer of heat by electromagnetic waves
01-7-S290-EP
The Fire Environment
Three Methods of Heat Transfer
Conduction
Convection
Radiation
Transfer of heat through solids
Transfer of heat by movement of air
Transfer of heat by electromagnetic waves
01-7-S290-EP
1-8-S290-EPUnit 1
The Fire Environment
Conduction
•Conduction is the transfer of heat
from one molecule of matter to
another.
•Relatively slow transfer and operates
within solid fuel particles.
The Fire Environment
Conduction
•Conduction is the transfer of heat
from one molecule of matter to
another.
•Relatively slow transfer and operates
within solid fuel particles.
1-9-S290-EPUnit 1
The Fire Environment
Convection
Convection is the transfer of heat
resulting from the motion of air (or
fluid).
The Fire Environment
Convection
Convection is the transfer of heat
resulting from the motion of air (or
fluid).
1-10-S290-EPUnit 1
The Fire Environment
Convection also includes direct flame
contact, a powerful heat transfer
process, especially in a head fire.
The Fire Environment
Convection also includes direct flame
contact, a powerful heat transfer
process, especially in a head fire.
1-11-S290-EPUnit 1
The Fire Environment
Radiation
Radiation is the transmission of heat
energy by electromagnetic waves
passing from a heat source to an
absorbing material.
The Fire Environment
Radiation
Radiation is the transmission of heat
energy by electromagnetic waves
passing from a heat source to an
absorbing material.
1-12-S290-EPUnit 1
The Fire Environment
The amount of heat received by fuels
ahead of the fire depends on the fire
intensity and the distance from the fire.
The Fire Environment
The amount of heat received by fuels
ahead of the fire depends on the fire
intensity and the distance from the fire.
1-13-S290-EPUnit 1
The Fire Environment
Branches are preheated by
radiation and convection.
1-13-S290-EP
The Fire Environment
Branches are preheated by
radiation and convection.
1-13-S290-EP
1-14-S290-EPUnit 1
The Fire Environment
Tree trunk is preheated by
radiation and convection.
1-14-S290-EP
The Fire Environment
Tree trunk is preheated by
radiation and convection.
1-14-S290-EP
1-15-S290-EPUnit 1
The Fire Environment
Logs are preheated by
radiation and conduction.
1-15-S290-EP
The Fire Environment
Logs are preheated by
radiation and conduction.
1-15-S290-EP
1-16-S290-EPUnit 1
The Fire Environment
Litter and duff are
preheated by radiation
and conduction.
1-16-S290-EP
The Fire Environment
Litter and duff are
preheated by radiation
and conduction.
1-16-S290-EP
1-17-S290-EPUnit 1
The Fire Environment
Head Fire Backing Fire
Wind and/or slope affect
fire spread with radiant
and convective heat.
Conduction/radiation within
fuel bed is dominant factor
in fire spread. Much less
dependent on wind and
slope.
The Fire Environment
Head Fire Backing Fire
Wind and/or slope affect
fire spread with radiant
and convective heat.
Conduction/radiation within
fuel bed is dominant factor
in fire spread. Much less
dependent on wind and
slope.
1-18-S290-EPUnit 1
The Fire Environment
Three Methods of Mass
Transport of Firebrands
on Wildland Fire
The Fire Environment
Three Methods of Mass
Transport of Firebrands
on Wildland Fire
1-19-S290-EPUnit 1
The Fire Environment
Watch Out #16
Getting frequent spot fires across line.
The primary cause of spot fires is
firebrands.
The Fire Environment
Watch Out #16
Getting frequent spot fires across line.
The primary cause of spot fires is
firebrands.
1-20-S290-EPUnit 1
The Fire Environment
Transfer of firebrands by convection.
The Fire Environment
Transfer of firebrands by convection.
1-21-S290-EPUnit 1
The Fire Environment
Transfer of firebrands by wind.
The Fire Environment
Transfer of firebrands by wind.
1-22-S290-EPUnit 1
The Fire Environment
Transfer of firebrands by gravity.
1-22-S290-EP
The Fire Environment
Transfer of firebrands by gravity.
1-22-S290-EP
1-23-S290-EPUnit 1
The Fire Environment
Flame Height/Flame Length
and its Relationship to
Fireline Intensity
The Fire Environment
Flame Height/Flame Length
and its Relationship to
Fireline Intensity
1-24-S290-EPUnit 1
The Fire Environment
Flame height is the
average height of flames
as measured on
a vertical axis.
It may be less than
flame length if flames
are angled.
The Fire Environment
Flame height is the
average height of flames
as measured on
a vertical axis.
It may be less than
flame length if flames
are angled.
1-25-S290-EPUnit 1
The Fire Environment
Flame Height
1-25-S290-EP
The Fire Environment
Flame Height
1-25-S290-EP
1-26-S290-EPUnit 1
The Fire Environment
Flame length is the
distance measured from
the average flame tip to
the middle of the flaming
zone at the base.
The Fire Environment
Flame length is the
distance measured from
the average flame tip to
the middle of the flaming
zone at the base.
1-27-S290-EPUnit 1
The Fire Environment
Flame Length
1-27-S290-EP
The Fire Environment
Flame Length
1-27-S290-EP
1-28-S290-EPUnit 1
The Fire Environment
The Primary
Environmental Factors
Affecting the Ignition,
Fire Intensity, and Rate of
Spread of Wildland Fires
The Fire Environment
The Primary
Environmental Factors
Affecting the Ignition,
Fire Intensity, and Rate of
Spread of Wildland Fires
1-29-S290-EPUnit 1
The Fire Environment
Ignition
•Size and shape of fuels
•Compactness or arrangement
of fuels
•Fuel moisture content
•Fuel temperature
The Fire Environment
Ignition
•Size and shape of fuels
•Compactness or arrangement
of fuels
•Fuel moisture content
•Fuel temperature
1-30-S290-EPUnit 1
The Fire Environment
Fireline Intensity =
The rate of heat released per
foot of fire front per second.
The Fire Environment
Fireline Intensity =
The rate of heat released per
foot of fire front per second.
1-31-S290-EPUnit 1
The Fire Environment
Fire intensity is primarily
affected by:
•Fuel loading
•Compactness or
arrangement of fuels
•Fuel moisture content
•The rate of spread
The Fire Environment
Fire intensity is primarily
affected by:
•Fuel loading
•Compactness or
arrangement of fuels
•Fuel moisture content
•The rate of spread
1-32-S290-EPUnit 1
The Fire Environment
Rate of Spread (ROS)
The activity of fire in extending
its horizontal dimensions.
The Fire Environment
Rate of Spread (ROS)
The activity of fire in extending
its horizontal dimensions.
1-33-S290-EPUnit 1
The Fire Environment
Primary Factors that
Affect Rate of Spread
•Wind speed
•Steepness of slope
•Changes in fuel type
The Fire Environment
Primary Factors that
Affect Rate of Spread
•Wind speed
•Steepness of slope
•Changes in fuel type
1-34-S290-EPUnit 1
The Fire Environment
Left Flank
Right Flank
H
e
a
d
R
e
a
r
Wind 5 MPH
1300 Hrs. 1400 Hrs. 1500 Hrs. 1600 Hrs.
8 Chains
4 Acres
8 Chains
16 Acres
8 Chains
36 Acres
Fire Spread and Area Growth
In 3 hours
the fire will
have burned
4 X (3 X 3)
acres or
36 acres
X
The Fire Environment
Left Flank
Right Flank
H
e
a
d
R
e
a
r
Wind 5 MPH
1300 Hrs. 1400 Hrs. 1500 Hrs. 1600 Hrs.
8 Chains
4 Acres
8 Chains
16 Acres
8 Chains
36 Acres
Fire Spread and Area Growth
In 3 hours
the fire will
have burned
4 X (3 X 3)
acres or
36 acres
X
1-35-S290-EPUnit 1
The Fire Environment
Elliptical spread pattern
The Fire Environment
Elliptical spread pattern
1-36-S290-EPUnit 1
The Fire Environment
Relationship of Wildland
Fires of Differing Intensities
to Their Environments
The Fire Environment
Relationship of Wildland
Fires of Differing Intensities
to Their Environments
1-37-S290-EPUnit 1
The Fire Environment
Low intensity fires
1-37-S290-EP
The Fire Environment
Low intensity fires
1-37-S290-EP
1-38-S290-EPUnit 1
The Fire Environment
High intensity fires
1-38-S290-EP
The Fire Environment
High intensity fires
1-38-S290-EP
1-39-S290-EPUnit 1
The Fire Environment
Stability of the Lower
Atmosphere
The Fire Environment
Stability of the Lower
Atmosphere
1-40-S290-EPUnit 1
The Fire Environment
Atmospheric Stability
A state of the atmosphere in
which the vertical distribution
of temperature is such that an
air particle will resist vertical
displacement from its level.
The Fire Environment
Atmospheric Stability
A state of the atmosphere in
which the vertical distribution
of temperature is such that an
air particle will resist vertical
displacement from its level.
1-41-S290-EPUnit 1
The Fire Environment
Winds Aloft
1-41-S290-EP
The Fire Environment
Winds Aloft
1-41-S290-EP
1-42-S290-EPUnit 1
The Fire Environment
Stability vs. Wind
Winds aloft
horizontal motion
Surface wind
horizontal motion
Rising air
unstable
atmosphere
vertical motion
Sinking air
stable
atmosphere
vertical motion
1-42-S290-EP
The Fire Environment
Stability vs. Wind
Winds aloft
horizontal motion
Surface wind
horizontal motion
Rising air
unstable
atmosphere
vertical motion
Sinking air
stable
atmosphere
vertical motion
1-42-S290-EP
1-43-S290-EPUnit 1
The Fire Environment
Open
Closed
1-43-S290-EP
The Fire Environment
Open
Closed
1-43-S290-EP
1-44-S290-EPUnit 1
The Fire Environment
The Behavior of Wildland
Fires in Standard Fire
Behavior Terminology
The Fire Environment
The Behavior of Wildland
Fires in Standard Fire
Behavior Terminology
1-45-S290-EPUnit 1
The Fire Environment
Exercise
The Fire Environment
Exercise
1-46-S290-EPUnit 1
The Fire Environment
01-46-S290-EP
1-46-S290-EP
The Fire Environment
01-46-S290-EP
1-46-S290-EP
1-47-S290-EPUnit 1
The Fire Environment 1-47-S290-EP
The Fire Environment 1-47-S290-EP
1-48-S290-EPUnit 1
The Fire Environment 1-48-S290-EP
The Fire Environment 1-48-S290-EP
1-49-S290-EPUnit 1
The Fire Environment
01-49-S290-EP
The Fire Environment
01-49-S290-EP
1-50-S290-EPUnit 1
The Fire Environment 1-50-S290-EP
The Fire Environment 1-50-S290-EP
1-51-S290-EPUnit 1
The Fire Environment 1-51-S290-EP
The Fire Environment 1-51-S290-EP
1-52-S290-EPUnit 1
The Fire Environment 1-52-S290-EP
The Fire Environment 1-52-S290-EP
1-53-S290-EPUnit 1
The Fire Environment 1-53-S290-EP
The Fire Environment 1-53-S290-EP
1-54-S290-EPUnit 1
The Fire Environment 1-54-S290-EP
The Fire Environment 1-54-S290-EP
1-55-S290-EPUnit 1
The Fire Environment 1-55-S290-EP
The Fire Environment 1-55-S290-EP
1-56-S290-EPUnit 1
The Fire Environment 1-56-S290-EP
The Fire Environment 1-56-S290-EP
1-57-S290-EPUnit 1
The Fire Environment
Unit 1 Objectives
1.Describe the three components of the
wildland fire environment.
2.List and give examples of the three
methods of heat transfer.
3.List three methods of mass transport of
firebrands on wildland fire.
4.Explain the relationship between flame
height/length and its relationship to the
fireline intensity.
The Fire Environment
Unit 1 Objectives
1.Describe the three components of the
wildland fire environment.
2.List and give examples of the three
methods of heat transfer.
3.List three methods of mass transport of
firebrands on wildland fire.
4.Explain the relationship between flame
height/length and its relationship to the
fireline intensity.
1-58-S290-EPUnit 1
The Fire Environment
5. Describe primary environmental factors
affecting ignition, fire intensity, and rate of
spread of wildland fires.
6.Discuss the relationship of wildland fires of
different intensities to their environments.
7.Describe the behavior of wildland fires
using standard fire behavior terminology.
Unit 1 Objectives
The Fire Environment
5. Describe primary environmental factors
affecting ignition, fire intensity, and rate of
spread of wildland fires.
6.Discuss the relationship of wildland fires of
different intensities to their environments.
7.Describe the behavior of wildland fires
using standard fire behavior terminology.
Unit 1 Objectives
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