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Weaving Climate Change Concepts Into High School Science Teaching. PCCE Convention – Edmonton October 16-17, 2012 Brian Martin – The King’s University College. Contexts for Good Science Teaching. - PowerPoint PPT Presentation
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Weaving Climate Change Concepts Into
High School Science Teaching
Weaving Climate Change Concepts Into
High School Science Teaching
PCCE Convention – EdmontonOctober 16-17, 2012
Brian Martin – The King’s University College
Contexts for Good Science Teaching
• Good science teaching provides conceptual hooks that connect a student’s lived world with the world of scientific ideas
• Climate Change Science is a complex subject that reaches into virtually every part of the science curriculum – this is a natural and fruitful area in which to create these “hooks”
• Climate Change represents one of humanities greatest challenges and developing climate change literacy in students and the general population is a critical need
Five Sample “Lessons”Idea Concept(s) Suggested Curricular
LinksWhat is the mass of the atmosphere
Force, Pressure Science 10Phys 20 – Unit BChem 20 – Unit B
How does the burning of CO2 change the atmosphere?
Stoichiometry Chem 20 – Unit D
Acidification of the Oceans Solutions, PH Chem 30 – Unit D
The Physics of Wind Power Conservation of Momentum and Energy, Power
Chem 20 – Unit CPhys 30 – Unit A
Photovoltaic Energy Energy and Power Science 10Phys 20 – Unit C
(1) Mass of the Atmosphere
What is the mass of a column of air 1m2 at the base which exerts a force of 100 kN ?
Ans: mg = 100 000 Nm = 104 kg
Every square m of the Earth’s surface supports 104 kg of air
2
2 4 2
6 2 4 2
18
4
4 (10 / )
4 (6.38 10 ) (10 / )
5 10
SA R
Mass R kg m
m kg m
kg
How many molecules are there in the atmosphere?
21205 10
30 /1.7 10
mass of atmosphereNumber of mols
molar massg
g molmol
(2) How Much CO2 in ppm Does a Barrel of Oil Produce?1 barrel releases 425 kg of CO2; in moles this is
Since the atmosphere contains 1.7 X 1020 mol one barrel will release
kgmol
kg mol4425
100.044 /
417
20
106 10
1.7 10
This is the fraction of CO2 relative to the entire atmosphere – multiply by 1 million to get the parts-per-million or ppm. So, 1 barrel releases an additional
ppm116 10
Is the observed increase in CO2 “natural” or …
bbl/a ppm/bbl
ppm/a
9 11(30 10 )(6 10 )
1.8
Slope = 1.8 pm/a
46 ppm
25a
A Bit Closer to home…what is the annual Carbon footprint of the Alberta Oil Sands in ppm?
Mt CObbl
kg bbl7240
9.4 10425 /
bbl/a ppm/bbl
ppm/a
7 11(9.4 10 )(6 10 )
0.006
…but – that’s not the end of the story!
Components of Fossil Fuel Emissions
Le Quéré et al. 2009, Nature Geoscience
How about Coal-Generated Power?
The Sundance plant produces roughly 17.5/40 times as much CO2 as The Alberta Oil Sands
In other words – Sundance adds
ppm/a)= 0.003 ppm/a(17.5 / 40)(0.006
(or about “half-a-Fort Mac”)
Let’s Re-run the Numbers…
If the burning of oil accounts for only 36% of the total CO2 loading then the total (anthropogenic) loading is …
1.8 /5 /
0.36
ppm appm a
So – where is the rest going?
(3) Ocean Acidification• The ocean buffers atmospheric
CO2
• The ocean’s pH has dropped from 8.20 to about 8.05 since the industrial revolution
pH is only 0.15 – why Worry?
• At [8.20] H3O+ concentration is 6.31 × 10-9 mol L-1
• At [8.05] H3O+ concentration is 8.91 × 10-9 mol L-1
• This represents a 41% increase in hydronium ions – the ocean is being acidified
pH
pH H O
so
H O
10 3
( )3
log [ ]
[ ] 10
(4) The Physics of Wind Power
• How much power can a 100 m diameter windmill produce?
• Estimate the size of a wind farm capable of producing the power output of the Sundance thermoelectric plant (2100 MW)
Energy from the wind• A packet of air of mass ‘m’ moving
with velocity ‘v’ has energy given as
kE mv212
m Av t A v t A v t1 1 2 2
kE Av tv212
P Av Av v3 212
Energy and power scale with the CUBE of wind velocity!
The total energy available is the difference between the energy of the incident air packet and the exiting air packet – Power that can be extracted is expressed as:
effectiveP P Av v v2 21 2
1( )
2
Note the crucial role of the incident and exit wind velocity – we want to find the “sweet spot” – what is the maximum value for Peffective?
Force and Power on a Windmill
• A variation on Newton’s 2nd Law
• Combine the two differently derived expressions for P
v mF ma m v
t tAv t
F v Av vt
P Fv Av v2
Av v v Av v
v v v v v v v
2 2 21 2
2 21 2 1 2
1( )
21( ) ( )
2
This is known as Betz’s Law (circa 1920) and leads to a remarkable result – the velocity across the rotor of the windmill is
v vv 1 2( )
2
Insert this into the power equation to get…
v vP A v v2 21 2
1 2
( )1( )
2 2
Let x = v1/v2 to get…
P Av x x3 21
1(1 )(1 )
4
p
P Av
Av or
C Av
31
31
31
1 1 1(1 )(1 )
4 3 916 1
( )27 212
Cp is the power coefficient for a wind turbine and the ratio 16/27 = 0.59 represents the maximum possible power that can be extracted. More typically wind turbines achieve 80% of this or 0.47
Example – Enercon101 Wind Generator
Optimal wind speed is around 10 m/sCp = 0.47 so
P kg/m m m/s
kW
3 2 31(0.48)(1.2 ) (50 ) (10 )
22400
How Many?
• To produce 2100 MW you will need…
• “Rule of thumb” – generator spacing is 7 times the diameter of the rotor or (0.1km)(7) = 0.7km
• Place in a grid 30 units X 30 units = 21 km X 21 km• Cost? A 2008 figure commonly used is 1.3 million/MW so a
2100 MW wind farm would cost approximately $275 million• From the TransAlta web site… “A 53-megawatt uprate to
Sundance 5 was completed in 2009 at a cost of $75 million.”
MWn units
MW/unit2100
8752.4
(5) Photovoltaic Energy
• By how much can I hope to reduce my annual CO2 footprint if I install 12, 235 W solar panels on the roof of my house?
• How does the cost of electricity produced by a PV panel compare with current costs @12 c/kWh? kW = 1000 W is a power unit
kWh = 1000 W × 3600 s = 3.6 MJ which is an energy unit
My Annual Electricity Use• Total electrical energy
consumption 2011 was 10 MWh• Under bright sunlight each panel
averages 140 W (averaged over the year)
• Edmonton receives on average 2300 h bright sunshine per year
E panels W h
MWh
(12 )(140 )(2300 )
3.86
I can offset about 40% of my (electrical) CO2 footprint
Cost of Solar Energy
• Total cash outlay for system = $15000
• Warranty period = 25 years; estimated lifetime > 40 years
• Assume an average annual energy production of 3.6 MWh
-1
-1
Net Cost $15000/25 a a
so
$600a17 c/kWh
3600 kWh
( ) $600
...
But the cost of sunlight won’t go up!
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