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Fire Weather: Temperature & Moisture. Weather and the Earth’s Heat Balance Weather = motion in the atmosphere due to unequal heating Over time, the amount.

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Presentation on theme: "Fire Weather: Temperature & Moisture. Weather and the Earth’s Heat Balance Weather = motion in the atmosphere due to unequal heating Over time, the amount."— Presentation transcript:

1 Fire Weather: Temperature & Moisture

2 Weather and the Earth’s Heat Balance Weather = motion in the atmosphere due to unequal heating Over time, the amount of energy lost and received by the atmosphere must be in balance But, the atmosphere is not in balance Attempt to regain balance  disturbance  weather

3 Components of Weather Temperature & Moisture Atmospheric Stability Winds Masses & Fronts Clouds & T-Storms

4 DAY NIGHT SURFACE HEAT EXCHANGE Solar radiation: heats air directly 0.5-1 F/day (depending on water vapor) Conduction: Air heated (or cooled) through contact with Earth’s surface Convection: warm air rises, cooler air falls (mixing) Cooling at night: Radiation, conduction, convection

5 Rising air expands and cools. Sinking air is compressed & warmed Air Rising Air Falling

6 Factors affecting the Earth’s surface temperature Season –angle of sun, day length Topography –slope, aspect Shading/scattering –clouds, smoke, haze, vegetation Absorption –clouds, water vapor Surface properties

7 Effect of vegetation on air temperatures (moderating influence) Intercepts radiation Green foliage –greater reflection Type of vegetation –shrub, tree, grass Density (canopy cover) * Temperatures in forest = 5-8 F cooler than open areas (warmer during the night)

8 Openings = warm pockets (chimney effect) Effect of vegetation on air temperatures…

9 Effects of surface properties on temperature Absorption and reflection: dark vs. light –Dark materials absorb more radiation –Light materials reflect radiation Transparent vs. opaque materials –Transparent materials allow radiation penetrate deeper layers (water) –Opaque materials concentrate radiation at the surface (soil, litter)

10 Surface properties continued… Conductivity –Good conductors – transmit heat rapidly to the interior wood/littermetal airwater soil 4 1 5 2 3 –Dry vs. wet soils? –Compact soil vs. porous duff? Poor conductors = hotter during the day and cooler at night (example – dry wood with frost) Good conductors = moderating influence, less temperature change (example – lake water)

11 Surface properties continued… Heat capacity - definition – The capacity of a material to contain, hold, or absorb heat –The amount of heat required to raise the temperature –Water VS. soil, rocks, wood, litter Water has higher HC (and good conductor, high transparency) Water requires large amounts of heat to raise its temperature; but loses and gains heat slowly Soil, rocks, wood, litter: Low HC

12 How does heating and cooling differ between these materials? Vegetation – high reflectance Dark surfaces – high absorption Water – high conductance high heat capacity high transparency (heat transferred to deep er layers) Dark dry soil – low conductance, (opaque) high absorption, low heat capacity opaque (concentrates heat near surface) Air – low conductivity Metal – high conductivity

13 Moisture & Weather Moisture in the atmosphere is continually changing its physical state: SolidLiquid Gas (ice)(water) (vapor) Heat Energy Required (Melting, Evaporation) = coolingHeat Energy Released (Condensation, Freezing) = warming

14 Atmospheric Humidity Absolute humidity: –The amount of water vapor in a given volume of air Relative humidity: –The ratio of the amount of water in a volume of air to the total amount of which that volume can hold at a given temperature and atmospheric pressure. = actual amount of water x 100 total amount the air can hold * RH VARIES WITH TEMPERATURE!!! *** Warm air can hold more water

15 Homework- Select a recently or currently burning fire… Name & location How did it start? Fuel type? Topography? Fire behavior? Weather conditions (RH/TEMP – see outcome sheet) …Find the hourly temperature, dew point, and relative humidity for 6:00 am – midnight on September 2 nd, 2008 for that site.

16 Relationship between temperature and relative humidity

17 Saturation and Dew Point Saturation –when the air contains all the water vapor that it can hold Dew point –The temperature to which air must be cooled to reach its saturation point –Further cooling will cause condensation to occur (clouds, fog, dew) –For an air mass with a given amount of water content, dew point remains the same even if temperature changes

18 Psychrometer Instrument used to measure atmospheric moisture – 2 thermometers: –Dry bulb – measures air temperature –Web bulb – measures temperature of evaporating water from a muslin wicking clot Use tables to determine: –Dew-point temperature –RH

19 Dew point = Top number (red) RH = Bottom number (black)

20 Psychrometer: Examples Example 1: –Dry Bulb = 80 F; Wet bulb = 70 –DP = ?; RH = ? –DP = 65; RH = 61% Example 2: –AM: temperature = 70 F & RH = 60% –PM: temperature = 90 F & RH = ? –DP=55, RH = 30-31%

21 DAY How is heat exchanged between the Earth’s surface and the atmosphere? How do the physical properties of air change when it rises or sinks? NIGHT How do these features affect the Earth’s surface temperature? DAY

22 How does heating and cooling differ between these materials? Conductivity of surface properties List the following from good (1) to poor (5) conductors: wood/littermetal airwater soil Which is the better conductor and why? –Dry vs. wet soils? –Compact soil vs. porous duff? How will good and poor conductors differ in their temperature between night and day? How can vegetation affect air temperatures?


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