Presentation is loading. Please wait.

Presentation is loading. Please wait.

Snow, Ice & Polar Environmental Change for K-12 Classrooms

Published byAmie Newman Modified over 8 years ago

Similar presentations

Presentation on theme: "Snow, Ice & Polar Environmental Change for K-12 Classrooms"— Presentation transcript:

1 Snow, Ice & Polar Environmental Change for K-12 Classrooms
Conductive Heat Flow through Snow and Ice Dr. Martin Jeffries, University of Alaska Fairbanks Geophysical Institute

2 Conductive heat flow through snow and ice
Why do scientists study snow and ice ? Conductive heat flow through snow and ice provides data about global climate change.

3 What is Conductive Heat Flow?
Lake ice and snow offer a good way to explain conductive heat flow Water holds a tremendous amount of heat. That latent heat is released as water freezes and ice forms. The latent heat (crystallization) is conducted away from the water-ice interface to the atmosphere along the temperature gradients in the snow and ice. The rate at which the latent heat is conducted from the water to the atmosphere, and thus the rate of ice growth and the thickness of the ice, is a function of, (a) snow depth, temperature and density, (b) ice thickness, temperature and density.

4 Why Do We Want To Know The Conductive Heat Flow Through Snow and Ice?
Because it dominates the energy balance of the ice and snow and is the major source of heat transfer through floating ice and snow in winter. Consequently, it plays a role in weather and climate. The magnitude and variability of conductive heat flow is quite well known for sea ice, but not for freshwater ice.

5 Is It Easy to Calculate Conductive Heat Flow?
Yes, and you only need information about the snow.

6 Calculating Conductive Heat Flow I
1. Conductive heat flow (Fa) is a function of: (a) snow temperature gradient (Ts-Tb/Zs); and (b) snow thermal conductivity (keff). Ts: snow surface temperature Tb: snow bottom temperature Zs: snow depth keff: snow thermal conductivity 2. Snow thermal conductivity is a function of snow density. (Source: Sturm et al., 1997)

7 Calculating Conductive Heat Flow II
Calculating Snow Density What is density? Mass per unit volume. What is the unit of density? kg m-3 (g cm-3) We have snow mass. We need snow volume. What is the volume of the snow sample? What is the volume of a cylinder? r2 h, where r: radius h: height

8 Calculating Conductive Heat Flow III
Calculating Snow Thermal Conductivity What is thermal conductivity? It’s a measure of the ability of a material to conduct heat, its ability to keep heat in (out), its effectiveness as an insulator. What is the unit of thermal conductivity? W m-1 K-1 How do we find a value for Watts per meter per °Kelvin?

9 Calculating Conductive Heat Flow IV
Remember, snow thermal conductivity (keff) is a function of snow density. And there are two simple equations that allow you to convert snow density to thermal conductivity. (Source: Sturm et al., 1997)

10 Calculating Conductive Heat Flow V
Two simple equations: • If snow density (r) is < g cm-3, then keff = r • If ≤ r ≤ 0.6 g cm-3 , then keff = r r

11 Calculating Conductive Heat Flow VI
Calculating the snow temperature gradient Ts-Tb/Zs where Ts: snow surface temperature Tb: snow bottom temperature Zs: snow depth

12 Calculating Conductive Heat Flow VII
Calculate the conductive heat flow, Fa (at last) Fa = (Ts-Tb /Zs ) x keff that is, Snow temperature gradient x snow thermal conductivity

13 What Determines The Conductive Heat Flow Through Snow, And Thus The Ice Thickness?
Depth Density Temperature Top & Bottom Gradient Conductive Heat Flow Thermal Conductivity Ice Thickness

14 Heat Flow Through Snow: Thought Experiment, I
The heat flow is greater through which snow block?

15 Heat Flow Through Snow: Thought Experiment, II
The heat flow is greater through which snow block?

16 Heat Flow Through Snow: Thought Experiment, III
The heat flow is greater through which snow block?

17 Heat Flow Through Snow: Thought Experiment, IV
The heat flow is greater through which snow block?

18 What is the conductive heat flow through these snow blocks?
Start your calculators

19 Four Thought Experiments
1. 2. 3. 4. Four Thought Experiments What is the conductive heat flow?

20 Snow Insulation Thought Experiment, I
What is the conductive heat flow through each snow block? Thin Snow Thick Snow Tgrad: -160°C m-1 -90°C m-1 keff: W m-1 K W m-1 K-1 Fa: -9.3 W m W m-2

21 Snow Insulation Thought Experiment, II
What is the conductive heat flow through each snow block? High r Low r Tgrad: -80°C m-1 -90°C m-1 keff: W m-1 K W m-1 K-1 Fa: W m W m-2

22 Snow Insulation Thought Experiment, III
What is the conductive heat flow through each snow block? Very Cold Snow Cold Snow Tgrad: -170°C m-1 -90°C m-1 keff: W m-1 K W m-1 K-1 Fa: -9.8 W m W m-2

23 Snow Insulation Thought Experiment, IV
What is the conductive heat flow through each snow block? Thin, Dense Thick, Less Snow Dense Snow Tgrad: -320°C m °C m-1 keff: W m-1 K W m-1 K-1 Fa: W m W m-2

24 Which Snow Block Provides The
Most Insulation For The Conditions? *

Download ppt "Snow, Ice & Polar Environmental Change for K-12 Classrooms"

Similar presentations

What? Remote, actively researched, monitored, measured, has a huge impact on global climate and is relatively cool?

What? Remote, actively researched, monitored, measured, has a huge impact on global climate and is relatively cool?
Properties of Ocean Water

Properties of Ocean Water
UNIT 13 : HEAT 13.1 Thermal Conductivity 13.2 Thermal Expansion.

UNIT 13 : HEAT 13.1 Thermal Conductivity 13.2 Thermal Expansion.
Earth- the Water Planet About 71% of the Earth’s surface is covered in water Without water, life cannot exist Water has unique properties that enables.

Earth- the Water Planet About 71% of the Earth’s surface is covered in water Without water, life cannot exist Water has unique properties that enables.
AS 91413 Year 13 SCIENCE. Ocean systems – course topics 1. Ocean composition 2. Ocean circulation 3. The carbon cycle 4. Transport matter, energy – heat,

AS Year 13 SCIENCE. Ocean systems – course topics 1. Ocean composition 2. Ocean circulation 3. The carbon cycle 4. Transport matter, energy – heat,
THERMAL ENERGY Integrated Science I Thermal Energy is heat energy; it is the total kinetic and potential energy of the particles making up the material.

THERMAL ENERGY Integrated Science I Thermal Energy is heat energy; it is the total kinetic and potential energy of the particles making up the material.
MECHANISM OF HEAT TRANSFER Mode of Heat transfer Conduction Convection

MECHANISM OF HEAT TRANSFER Mode of Heat transfer Conduction Convection
Thermochemistry Review. The number of degrees between the freezing point of water and the boiling point of water on the Celsius scale is: 1.0 2.100 3.180.

Thermochemistry Review. The number of degrees between the freezing point of water and the boiling point of water on the Celsius scale is:
SC.D.1.2.3 CS The student knows that the water cycle is influenced by temperature, pressure, and the topography of the land. Content Limits: Items will.

SC.D CS The student knows that the water cycle is influenced by temperature, pressure, and the topography of the land. Content Limits: Items will.
{ Hydrosphere. H2O molecule Hooray for Polarity!!!! Polarity= Having a positively and a negatively charged end.

{ Hydrosphere. H2O molecule Hooray for Polarity!!!! Polarity= Having a positively and a negatively charged end.
Properties of Matter. Density Density is a measure of how closely packed the atoms are in a substance Density will change as temperature changes – As.

Properties of Matter. Density Density is a measure of how closely packed the atoms are in a substance Density will change as temperature changes – As.
Heat Transfer Physics 202 Professor Lee Carkner Lecture 14.

Heat Transfer Physics 202 Professor Lee Carkner Lecture 14.
Sea Ice Presented by: Dorothy Gurgacz.

Sea Ice Presented by: Dorothy Gurgacz.
Density Is a physical property of matter Every pure substance has its own density Is important for the identification of a sample of matter Is an intensive.

Density Is a physical property of matter Every pure substance has its own density Is important for the identification of a sample of matter Is an intensive.
Chapter 2 Energy in the Atmosphere. Energy It’s what makes things happen.

Chapter 2 Energy in the Atmosphere. Energy It’s what makes things happen.
Atmospheric Analysis Lecture 2.

Atmospheric Analysis Lecture 2.
Lecture 7: The Oceans (1) EarthsClimate_Web_Chapter.pdfEarthsClimate_Web_Chapter.pdf, p. 22-24.

Lecture 7: The Oceans (1) EarthsClimate_Web_Chapter.pdfEarthsClimate_Web_Chapter.pdf, p
What unique properties of water make it essential for LIFE on Earth?

What unique properties of water make it essential for LIFE on Earth?
HEAT ENERGY TRANSFER AND AIR TEMPERATURE. As we have seen, Earth’s Weather and Climate are the results of the intricate interrelationships between the.

HEAT ENERGY TRANSFER AND AIR TEMPERATURE. As we have seen, Earth’s Weather and Climate are the results of the intricate interrelationships between the.
Physical Properties Does it Matter?. Magnetism Matter that contains iron or nickel will be attracted to a magnet. Not all metals are attracted to a magnet.

Physical Properties Does it Matter?. Magnetism Matter that contains iron or nickel will be attracted to a magnet. Not all metals are attracted to a magnet.

Similar presentations

Ads by Google