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Alternatives to Nuclear
Energy: Classifications and
Technology
Erica Raheja
04/13/08
Power Conversion: Turbines
• Almost all electrical energy produced
• Driven by a fluid
 Most common: steam
 Other: wind or water
• Used to convert energy into electrical
energy (attach to generator)
 Simplest: shaft with blades attached
 Early examples: windmills or waterwheels
Alternative Energy Sources
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Fossil fuels: coal, petroleum, natural gas
Solar power
Wind power
Water power
 Hydro-electric
 Tidal
 Wave
• Geothermal power
• Biofuel
Fossil Fuels
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Coal, petroleum, natural gas
Found in the earth’s crust
Non-renewable resource
Burned to create steam which turns
turbine
Fossil Fuels cont.
Pros of Fossil Fuels
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Large amounts of energy produced
Relatively cheap
Can build a plant almost anywhere
Transportation of fuel relatively easy
Cons of Fossil Fuels
• Pollution
 Burning fossil fuels produces carbon dioxide,
a “greenhouse” gas
• Obtaining the fuel can have negative
effects on the environment
• Acid rain
• Release of radioactive material
• Non-renewable resource
Solar Power
• Three major categories
 Photovoltaic cells
 Solar power heating
 Solar furnaces
• Other research
Solar Power cont.
• Photovoltaic (PV) cells
 Convert solar energy directly into electrical
 Photons from the light knock the electrons into an
excited state, generating electricity
 Cells connected together in panels for more electricity
Solar Power cont.
• Solar power heating
 Sun heats water in exposed glass panels
 Require less electrical power to heat
 Problem: water in panels can freeze
Solar Power cont.
• Solar furnaces or Concentrating Solar
Power (CSP) system
 Concentrate sunlight into small beam by use
of mirrors or lenses
 Can then use as heat source
Solar Power cont.
• Trough system
Solar Power cont.
• Power tower system
Solar Power cont.
• Dish engine system
Solar Power cont.
• More pictures
Solar Power cont.
• Research/Experimental
Technology
 Solar updraft tower
 A large greenhouse funnels
heated air into a central
tower which can turn
turbines
 Solar pond
 A pool of salt water collects
and stores solar energy
Solar Power Pros
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It is free
Can be used in remote locations
Good for low-power usage
Renewable resource
Solar Power Cons
• Does not work at night
• Extremely expensive to build solar power
stations
• Unreliable except in sunny climates
Wind Power
• Wind blows in and
turns propeller
blades, turning a
generator
• Pitch can be
changed according
to wind speed
• Made to turn and
face wind
Wind Power cont.
• Often build many wind towers together to create
“farm”
• Need places where wind is reliable and strong
Wind Power Pros
• Wind is free
• No waste products
• Land underneath potentially used for
farming purposes
• Way of providing energy to remote
locations
• Renewable resource
Wind Power Cons
• Wind unpredictable, unreliable source of
power
• Coastal land expensive
• Can kill birds
• Noise pollution
Water Power
• Three major categories
 Hydro-electric power
 Tidal
 Wave
Water Power cont.
• Hydro-electric power
• Running water has kinetic energy (converted
from potential energy height)
• Generally dam built to trap water
• Water flows through dam, turning turbines as it
passes by
Water Power cont.
• Dam must be thicker at bottom to withstand
pressure
• Expensive to build but water is free and
produces cheap energy
• Evaporation from sun keeps lake filled with
water
Water Power cont.
• Hoover dam
Water Power cont.
• Hydro-electric advantages
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Energy cheap after dam is built
No waste or pollution produced
Reliable source of power
Water can be stored for peak usage
Can increase to full power relatively fast
Electricity can be produced constantly
Renewable
• Disadvantages
 Expensive to build dams
 Changes to the environment
 Suitable sites can be difficult to find
Water Power cont.
• Tidal power
• Dam built across a
river estuary
• Ebb and flow of the
tides either turns a
turbine or pushes air
through a pipe that
turns a turbine
Water Power cont.
• Largest tidal power station in the world: Rance
estuary in France
• Only can generate power when the tide is going
in or out
Water Power cont.
• Other option: offshore turbines or tidal stream
systems
• Similar to underwater wind farm
• Need locations in fast currents
Water Power cont.
• “Swanturbines” design from University of
Wales Swansea
Water Power cont.
• Advantages
 Tidal power is essentially free, renewable, and clean
once the original installation is made
 Produces electricity reliably - tides are predictable
 Not expensive to maintain
 Offshore turbines relatively inexpensive and lowimpact on environment
• Disadvantages
 A barrage across an estuary is expensive
 Few sites (about 20 around the world)
 Only provides power for 10 hours
Water Power cont.
• Wave power
Water Power cont.
• Advantages
 Wave power is free, clean, and renewable
 Inexpensive to build and maintain
 Can produce a lot of energy
• Disadvantages
 Waves unpredictable - need suitable site
 Can be noisy
 Must be able to withstand all weather
Geothermal Power
• Heat from the earth used for power
• Dry steam
 Steam from fractures used to drive turbine
• Flash
 Hot water rises and boils as it comes to the surface.
 Steam used to drive turbine
• Binary
 Hot water run through heat exchangers, boiling
organic fluid used to drive turbine
Geothermal Power cont.
• If there is not already water below ground,
can pump water down
• Called Enhanced Geothermal System
(EGS)
Geothermal Power cont.
• Important resource in volcanically active
areas: Iceland, New Zealand
• Efficiency depends on the temperature of
the water
• Can deplete a site
Geothermal Power cont.
• The Nesjavellir Geothermal Power Plant in
Iceland
Geothermal Power Pros
• No pollution
• Power plants take up little room, giving it a
low impact on the environment
• No fuel is needed
• Once built, energy almost free
• Work continuously
• Renewable resource
Geothermal Power Cons
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Few places viable to build power stations
Depletion of a site can occur
Hazardous gas can rise to the surface
Can lower land stability
Biofuel
• Generally, biofuel is burned and used to
heat steam
• Made of or derived from dead biological
matter
• Exist in solid, liquid, and gaseous forms
Biofuel cont.
• Solid biofuel: wood, biogenic municipal
solid waste, unused portions of field crops,
animal wastes
• Can be burned for heat to warm homes or
be used in external combustion engines
• Can convert wood and byproducts into
liquid or gas via gasification
Biofuel cont.
• Liquid biofuel: bioalcohol
(ethanol) or bio-oil (biodiesel or
vegetable oil)
• Generally used in diesel engines
 No modifications needed for
biodiesel
• Reduce emissions from fossil
fuels
• Made from corn, sugarbeets,
sugar cane, etc.
Biofuel Pros
• Makes sense to use waste products when
possible
• Fuel tends to be cheap
• Less demand on the earth’s resources
• Renewable resource
Biofuel Cons
• Collecting in sufficient quantities can be
difficult
• Burning does still produce greenhouse
gases
• Some materials are not available all year
round
Biofuel cont.
• Biogas: methane gas
• Produced from current waste streams like paper
and sugar production and sewage
• Naturally ferment to create methane
• Mechanical biological treatment: use anaerobic
digesters to process biodegradable material
• Renewable natural gas: upgraded to quality like
natural gas
World Primary Energy
Production
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(Data from 2005)
36.8% petroleum
26.6% coal
22.9% dry natural gas
6.3% hydro power
6.0% nuclear power
0.9% other (geothermal, solar, wind, and
biofuel)