RTW: Monday Mar. 10, 2014
RTW: Monday Mar. 10, 2014
•List a pro and a con for both mining methods.
•(they are listed on pg. 524 if you need a refreshing)
•List a pro and a con for both mining methods.
•(they are listed on pg. 524 if you need a refreshing)
Energy Sources and UsesEnergy Sources and Uses•Energy Sources•Renewable: Nearly always available or replaceable in a relatively short time
•sunlight, wind, flowing water, biofuels
•Nonrenewable: Cannot be replaced in a reasonable time
• fossil fuels and nuclear energy
•Energy Sources•Renewable: Nearly always available or replaceable in a relatively short time
•sunlight, wind, flowing water, biofuels
•Nonrenewable: Cannot be replaced in a reasonable time
• fossil fuels and nuclear energy
Lesson 17.1 Energy: An Overview
Wind power is a renewable energy source.
Question!Question!
What type of energy source(s) does the United States use?
What type of energy source(s) does the United States use?
Lesson 17.1 Energy: An Overview
Fossil FuelsFossil Fuels
Lesson 17.2 Fossil Fuels
• Include coal, oil, and natural gas
• Formed from the remains of organisms over millions of years
A front loader piles coal at a steam station in Dunkirk,New York.
Fact!Fact!Lesson 17.1 Energy: An Overview
About half of the electricity used in the United States is generated by COAL.
Disadvantages of using Fossil Fuels:
Disadvantages of using Fossil Fuels:
Lesson 17.3 Consequences of Fossil Fuel Use
• Climate Change: Burning fossil fuels releases carbon dioxide
• Air Pollution: When coal and oil burn, sulfur dioxide and nitrogen oxides are released, which contribute to smog and acid rain.
• Water Pollution: Oil spills, equipment ruptures, and oil in runoff pollute waterways, oceans, and coastal areas.
• Combustion: Coal-fired power plants release mercury, which harms human health.
Did You Know? Coal-burning power plants cause 40% of mercury emissions due to human activity in the United States.
Did You Know? Coal-burning power plants cause 40% of mercury emissions due to human activity in the United States.
Fossil Fuel SupplyFossil Fuel Supply
Lesson 17.2 Fossil Fuels
•Consumption is still rising, but new fossil fuels do not form on a human timescale.
•Coal sources are still relatively abundant, but not infinite.
Did You Know? Some studies suggest we have extracted nearly half Earth’s oil, and that U.S. coal supplies may last just 130 years.
Did You Know? Some studies suggest we have extracted nearly half Earth’s oil, and that U.S. coal supplies may last just 130 years.
Natural GasNatural Gas
Lesson 17.2 Fossil Fuels
• Primarily methane gas with small amounts of other gases mixed in
• Much less polluting than coal or oil and releases more energy when combusted
what is fracking?
http://www.youtube.com/watch?v=dZe1AeH0Qz8
Lesson 17.2 Fossil FuelsLesson 17.2 Fossil Fuels
One quarter of global coal reserves are found in the United States.One quarter of global coal reserves are found in the United States.
CoalCoal
Lesson 17.2 Fossil Fuels
• Compared to other fossil fuels, coal is cheap, needs little processing, and is abundant.
• Provides 1/4 of the world’s energy
Did You Know? Coal is the most abundant fossil fuel on Earth.
Did You Know? Coal is the most abundant fossil fuel on Earth.
How Coal Forms
Coal MiningCoal Mining
Lesson 17.2 Fossil Fuels
Strip mining: Overlying rock and soil are removed to access coal (safer for miners).
Subsurface mining: Underground shafts are dug to access coal under Earth’s surface.
Lesson 17.3 Consequences of Fossil Fuel UseLesson 17.3 Consequences of Fossil Fuel Use
The United States imports two thirds of its crude oil.The United States imports two thirds of its crude oil.
Gulf of Mexico Oil Well ExplosionsGulf of Mexico Oil Well Explosions
Lesson 17.3 Consequences of Fossil Fuel Use
• 1979: Ixtoc I exploratory oil well • 50 m below surface
• Released 126 million gal oil; containment efforts took 9 months
• What didn’t work: cap, siphoning, controlled burn, “top kill”
• What did work: relief wells
• 2010: Deepwater Horizon oil well • 1500 m below surface
• Largest U.S. offshore oil breach as of 2010—21.2–33.5 million gal oil released during first 6 weeks, based on USGS rough estimates
• Hundreds of miles of coastal habitats threatened
• Methods tried: dome, cap, siphoning, controlled burns, “top kill,” “junk shot,” and relief wells
Controlled burns attempt to contain oil pumping into the Gulf, one month after the 2010 well blow-out.
Damage Caused by Extracting FuelsDamage Caused by Extracting Fuels
Lesson 17.3 Consequences of Fossil Fuel Use
• Mining:
• Humans risk lives and respiratory health.
• Ecosystems are damaged by habitat destruction, acid drainage, and heavy metal contamination downslope of mines.
• Oil and gas extraction:
• Roads and structures built to support drilling break up habitats and harm ecosystems.
• The longterm consequences of accidents can be uncertain or unpredictable
Acid drainage from a coal mine
Acid DrainageAcid Drainage•Occurs when sulfide minerals in exposed rock surfaces react with oxygen and rain to produce acid.
•Occurs when sulfide minerals in exposed rock surfaces react with oxygen and rain to produce acid.
Lesson 17.4 Nuclear PowerLesson 17.4 Nuclear Power
Scientists estimate that nuclear power helps us avoid emitting 600 million metric tons of carbon each year worldwide.
Scientists estimate that nuclear power helps us avoid emitting 600 million metric tons of carbon each year worldwide.
Nuclear FissionNuclear Fission
Lesson 17.4 Nuclear Power
• Splits an atomic nucleus into two smaller nuclei
• Releases neutrons and large amounts of energy. If enough unstable nuclei are present, a nuclear chain reaction can occur.
Did You Know? About 20% of electricity produced in the United States comes from nuclear power.
Did You Know? About 20% of electricity produced in the United States comes from nuclear power.
Generating Electricity Using Nuclear Energy
Generating Electricity Using Nuclear Energy
Lesson 17.4 Nuclear Power
How a nuclear reactor works
Benefits and Costs of Nuclear Power
Benefits and Costs of Nuclear Power
Lesson 17.4 Nuclear Power
Benefits Costs
No air pollution Expensive to build and maintain
Requires little uranium fuel and little mining
Catastrophic accidents are possible-MELTDOWN
Under normal conditions, nuclear power plants are safer for workers than coal-burning power plants.
Nuclear waste must be stored for thousands of years.
Chernobyl
Nuclear WasteNuclear Waste
Lesson 17.4 Nuclear Power
• Waste is currently held at power plants as a stopgap, but a long-term storage location is needed.
• Long-term storage sites must be distant from population centers, protected from sabotage, have a deep water table, and be geologically stable.
• Yucca Mountain, Nevada, was chosen by the U.S. government in the 1980s, and a storage site was constructed there. But, as of 2010, the Yucca Mountain project is no longer under development.
Yucca Mountain storage site
Nuclear MeltdownNuclear Meltdown
Lesson 17.4 Nuclear Power
• Chernobyl Documentary
• True or False: A nuclear meltdown occurs after an atomic explosion in the nuclear reactor.
Generating Electricity With Hydropower
Generating Electricity With Hydropower
Lesson 18.2 Hydropower and Ocean Power
• Hydropower is generated by turbines turned by moving water.
• Two basic approaches: • Water flows through a dam
and pushes turbines.
• Naturally flowing water is diverted through turbines.
• Naturally flowing water can lead to a variable supply of electricity. Dams provide constant electricity but can disturb natural habitats.
Benefits and Costs of HydropowerBenefits and Costs of Hydropower
•Benefits:• Completely renewable
• No air pollution or greenhouse gas emissions
• Yields relatively cheap electricity
•Costs:• Dams alter ecosystems and affect
organisms (especially fish).
• Dams trap soil-enriching silt, preventing it from reaching downstream.
• Building dams and reservoirs can displace people.
•Benefits:• Completely renewable
• No air pollution or greenhouse gas emissions
• Yields relatively cheap electricity
•Costs:• Dams alter ecosystems and affect
organisms (especially fish).
• Dams trap soil-enriching silt, preventing it from reaching downstream.
• Building dams and reservoirs can displace people.
Lesson 18.2 Hydropower and Ocean Power
Lesson 18.3 Solar and Wind EnergyLesson 18.3 Solar and Wind Energy
In one day, the Earth receives enough energy from the sun to meet human energy needs for 25 years—if it could all be harnessed.
In one day, the Earth receives enough energy from the sun to meet human energy needs for 25 years—if it could all be harnessed.
Harnessing Solar Energy to Make Electricity
Harnessing Solar Energy to Make Electricity
• Photovoltaic cells (solar panels): Convert solar energy directly into electricity
• Concentrating solar power: Uses mirrors to focus the sun’s rays on a vessel containing fluid; creates steam to push turbines and generate electricity.
• Photovoltaic cells (solar panels): Convert solar energy directly into electricity
• Concentrating solar power: Uses mirrors to focus the sun’s rays on a vessel containing fluid; creates steam to push turbines and generate electricity.
Lesson 18.3 Solar and Wind Energy
Solar Panel
Benefits and Costs of Solar PowerBenefits and Costs of Solar Power•Benefits:• Inexhaustible• Clean—no air or
water pollution produced during operation
• Low maintenance devices
• New jobs to make solar devices
•Costs:• Some pollution during
manufacture• Many regions aren’t
sunny enough. • Devices are
expensive.
•Benefits:• Inexhaustible• Clean—no air or
water pollution produced during operation
• Low maintenance devices
• New jobs to make solar devices
•Costs:• Some pollution during
manufacture• Many regions aren’t
sunny enough. • Devices are
expensive.
Lesson 18.3 Solar and Wind Energy
Using Wind to Make ElectricityUsing Wind to
Make Electricity
•Wind turbines (windmills) convert wind’s kinetic energy to electrical energy.
•Wind turbines can be placed on land or offshore.
• Turbines can be solitary or built in groups called wind farms.
•Wind turbines (windmills) convert wind’s kinetic energy to electrical energy.
•Wind turbines can be placed on land or offshore.
• Turbines can be solitary or built in groups called wind farms.
Lesson 18.3 Solar and Wind Energy
Did You Know? Average wind speeds are 20% faster offshore than on land.
Did You Know? Average wind speeds are 20% faster offshore than on land.
Benefits and Costs of Wind PowerBenefits and Costs of Wind Power
•Benefits:• No pollution or greenhouse gases produced during operation
• Under good wind conditions, produces far more energy than it uses
• Relatively cheap to operate
•Benefits:• No pollution or greenhouse gases produced during operation
• Under good wind conditions, produces far more energy than it uses
• Relatively cheap to operate
Lesson 18.3 Solar and Wind Energy
• Costs:• High startup costs
• Winds can be unpredictable.
• Fastest winds are often not near population centers.
• Communities complain about the looks and noise of wind farms.
• Can be harmful to birds and bats
Exit Slip!Exit Slip!
1. List three ways the development of an oil field affects the habitats of wildlife.
2. Describe three ways fossil fuels affect air quality.
1. List three ways the development of an oil field affects the habitats of wildlife.
2. Describe three ways fossil fuels affect air quality.
Lesson 17.1 Energy: An Overview