Mechanical energy storage
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Oct 07, 2014
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About This Presentation
mechanical energy storage
Slide Content
Mechanical Energy Storage
Created by Nick Stroud
Created by Nick Stroud
Three Types of Storage
•Pumped hydroelectric
storage (PHS)
•Compressed air energy
storage (CAES)
•Flywheels
•Pumped hydroelectric
storage (PHS)
•Compressed air energy
storage (CAES)
•Flywheels
Pumped Hydroelectric
Storage (PHS)
•Used for load balancing of
energy
•Water is pumped up in
elevation during time of low
demand
•Water flows back down
during times of high demand
•Turbines recapture the
energy.
Storage (PHS)
•Used for load balancing of
energy
•Water is pumped up in
elevation during time of low
demand
•Water flows back down
during times of high demand
•Turbines recapture the
energy.
Pumped Hydroelectric
Storage (PHS)
•70-85% of electrical energy
is recovered
•Energy loss due to
evaporation and
Pump/generator inefficiency
•Currently the most cost
effective way to store large
amounts of electricity
•Low energy density calls for
large bodies of water
•Never used in portable
technology
•1000 kg at 100 ft = .272 kWh
Storage (PHS)
•70-85% of electrical energy
is recovered
•Energy loss due to
evaporation and
Pump/generator inefficiency
•Currently the most cost
effective way to store large
amounts of electricity
•Low energy density calls for
large bodies of water
•Never used in portable
technology
•1000 kg at 100 ft = .272 kWh
Pumps: On the Grid
•The Us has 19.5 gigawatts
capacity
•2.5% of baseload
•Technology is in use world
wide
•Hundreds of plants around
the world
•Man made reservoirs as well
as natural reservoirs
•The Us has 19.5 gigawatts
capacity
•2.5% of baseload
•Technology is in use world
wide
•Hundreds of plants around
the world
•Man made reservoirs as well
as natural reservoirs
Future Of PHS
•This energy storage can
be used to level the grid
for renewable energy
•Wind power and solar
power are not
constantly on
•Using salt mines to
increase energy density
•This energy storage can
be used to level the grid
for renewable energy
•Wind power and solar
power are not
constantly on
•Using salt mines to
increase energy density
Compressed air
energy storage (CAES)
•Large tank is buried
underground
•During times of low
demand electricity
compresses air
•During times of peak
demand compressed air
is heated and released
http://www.sandia.gov/media/NewsRel/NR2001/norton.htm
energy storage (CAES)
•Large tank is buried
underground
•During times of low
demand electricity
compresses air
•During times of peak
demand compressed air
is heated and released
http://www.sandia.gov/media/NewsRel/NR2001/norton.htm
Types Of CAES
•Adiabatic storage
•Heat from compression is
captured and stored in a
solid or liquid
•Hot Oil 300
0
C
•Molten Salt 600
0
C
•Heat is reincorporated
during release
•Close to 100% efficiency
•No utility scale plants
•Diabatic storage
•Heat is lost through
cooling
•Natural gas is burned to
reheat compressed air
•Very inefficient 38-68%
•Uses 1/2 gas of an all
gas plant
•Adiabatic storage
•Heat from compression is
captured and stored in a
solid or liquid
•Hot Oil 300
0
C
•Molten Salt 600
0
C
•Heat is reincorporated
during release
•Close to 100% efficiency
•No utility scale plants
•Diabatic storage
•Heat is lost through
cooling
•Natural gas is burned to
reheat compressed air
•Very inefficient 38-68%
•Uses 1/2 gas of an all
gas plant
More about CAES
•Can use sandstone
layer to hold
compressed air
•USA has good ground
for this type of storage
•Can be used to level
load from wind and
solar
•200-300 MW Plants
•Can use sandstone
layer to hold
compressed air
•USA has good ground
for this type of storage
•Can be used to level
load from wind and
solar
•200-300 MW Plants
Compressed air in Cars
•Zero pollution Motors
•Stores air at around 300atm
•Under 35 mph it is zero
emissions
•Over 35 mph uses
combustion engine to
compress air
•Runs on many different types
of fuel
•1 air tank + 8 gal gas= 848 miles
•Zero pollution Motors
•Stores air at around 300atm
•Under 35 mph it is zero
emissions
•Over 35 mph uses
combustion engine to
compress air
•Runs on many different types
of fuel
•1 air tank + 8 gal gas= 848 miles
Fueling/Refueling
•Flex engine runs off of
gas, diesel, alcohol,
possibly even vegetable
oil
•Refueling air tank at
refuel station about 3
minutes
•Home refuel unit takes 4
hours, electrical cost $2
•3 cents per mile
•Flex engine runs off of
gas, diesel, alcohol,
possibly even vegetable
oil
•Refueling air tank at
refuel station about 3
minutes
•Home refuel unit takes 4
hours, electrical cost $2
•3 cents per mile
FlowAir
•After 35 mph only 1/2 the
CO
2
emissions of Prius
•Takes advantage of light
engine and light frame to be
efficient
•Uses fiberglass frame filled
with foam
•May lose efficiency in cold
weather
•After 35 mph only 1/2 the
CO
2
emissions of Prius
•Takes advantage of light
engine and light frame to be
efficient
•Uses fiberglass frame filled
with foam
•May lose efficiency in cold
weather
Future of Air Vehicles
•Flowair- release in 2010
•First needs to pass US
safety ratings
•6 seats
•106 mpg
•800-1000 mile range
•Top speed 96 mph
•$17500
•Flowair- release in 2010
•First needs to pass US
safety ratings
•6 seats
•106 mpg
•800-1000 mile range
•Top speed 96 mph
•$17500
Flywheels
•Captures energy in a rotating
Mass
•Flywheel is charged using
electric motor
•Electric generator extracts
energy
http://en.wikipedia.org/wiki/Image:G2_front2.jpg#filehistory
•Captures energy in a rotating
Mass
•Flywheel is charged using
electric motor
•Electric generator extracts
energy
http://en.wikipedia.org/wiki/Image:G2_front2.jpg#filehistory
Operation Of Flywheel
•Energy held in Spinning
Rotor (Steel or Carbon
composite)
•Steel rotors can spin at
several thousand rpm
•Carbon composite spin
up to 60k rpm
•Kinetic Energy 1/2mv
2
http://www.aretepower.us/images/Composite%20Flywheel%20Rotor.jpg
•Energy held in Spinning
Rotor (Steel or Carbon
composite)
•Steel rotors can spin at
several thousand rpm
•Carbon composite spin
up to 60k rpm
•Kinetic Energy 1/2mv
2
http://www.aretepower.us/images/Composite%20Flywheel%20Rotor.jpg
Bearings
•Mechanical bearings
not practical
•Friction is directly
proportional to speed
•Magnetic bearings used
to minimize friction
•Rotor is suspended-
state of levitation
•Operates in a Vacuum
•Mechanical bearings
not practical
•Friction is directly
proportional to speed
•Magnetic bearings used
to minimize friction
•Rotor is suspended-
state of levitation
•Operates in a Vacuum
Superconductors
•New technology uses high temperature
superconductors (HTSC)
•HTSC operate at -196
0
C or -321
0
F
•Diamagnetism- creates a field of opposition to a
magnetic field
•Hybrid systems use conventional magnets to levitate
and superconductors to stabilize
•New technology uses high temperature
superconductors (HTSC)
•HTSC operate at -196
0
C or -321
0
F
•Diamagnetism- creates a field of opposition to a
magnetic field
•Hybrid systems use conventional magnets to levitate
and superconductors to stabilize
Flywheels Vs. Batteries
•Not effected by
temperature changes
•No Memory Effect
•Made more
environmentally friendly
•Easy energy content
identification
Pros
•Shattering due to
overload
•Safety devices add lots
of mass
•Gyroscope (duel FES
systems)
Cons
•Not effected by
temperature changes
•No Memory Effect
•Made more
environmentally friendly
•Easy energy content
identification
Pros
•Shattering due to
overload
•Safety devices add lots
of mass
•Gyroscope (duel FES
systems)
Cons
Energy Stats
Composite Flywheel Li-ion Battery
Cycles 100,000 to 10 millionAround 1200
Energy Density 130 Wh/kg 160 Wh/kg
Capacity Range from 3 kWh to
Max of 133 KWh
Equal to 13,825 18650
Li-ion
Over 4 times what is
used to power the Tesla
Charge Time 15 min Several Hours
Self discharge time“0 run down time”- Years10-20 months
Energy ExchangeLimited by generatorLimited by chemical
process
Composite Flywheel Li-ion Battery
Cycles 100,000 to 10 millionAround 1200
Energy Density 130 Wh/kg 160 Wh/kg
Capacity Range from 3 kWh to
Max of 133 KWh
Equal to 13,825 18650
Li-ion
Over 4 times what is
used to power the Tesla
Charge Time 15 min Several Hours
Self discharge time“0 run down time”- Years10-20 months
Energy ExchangeLimited by generatorLimited by chemical
process
•Flywheels have High
volumetric density
volumetric density
Flywheel Projects
•Gyrobuses- used in
1950s in Switzerland
•Buses run off of
Flywheels
•Never gained economic
foothold
•Low fuel costs
compared to electricity
•Gyrobuses- used in
1950s in Switzerland
•Buses run off of
Flywheels
•Never gained economic
foothold
•Low fuel costs
compared to electricity
Flywheel Projects
•Flywheels used in electric
trains to carry over gaps and
regenerative breaking
• Some car models tried
(Rosen Motors)
•Formula 1 competition
•Used on systems that need
Uninterrupted power supply.
(maintenance 1/2 cost of
battery)
•Testing of fuses
•Flywheels used in electric
trains to carry over gaps and
regenerative breaking
• Some car models tried
(Rosen Motors)
•Formula 1 competition
•Used on systems that need
Uninterrupted power supply.
(maintenance 1/2 cost of
battery)
•Testing of fuses
Sources
•http://photo.proaktiva.eu/digest/2008_gyrobus.html
•http://eco-energy.info/asp/index.asp?uc=&k=3165
•http://www1.eere.energy.gov/femp/pdfs/fta_flywheel.pdf
•http://www.vyconenergy.com/pages/flywheeltech.htm
•http://www.isepa.com/about_isep.asp
•http://finance.yahoo.com/family-home/article/106040/Air-Cars:-
A-New-Wind-for-America's-Roads
•http://gas2.org/2008/07/15/an-air-car-you-could-see-in-2009-
zpms-106-mpg-compressed-air-hybrid/
•http://zeropollutionmotors.us/
•http://photo.proaktiva.eu/digest/2008_gyrobus.html
•http://eco-energy.info/asp/index.asp?uc=&k=3165
•http://www1.eere.energy.gov/femp/pdfs/fta_flywheel.pdf
•http://www.vyconenergy.com/pages/flywheeltech.htm
•http://www.isepa.com/about_isep.asp
•http://finance.yahoo.com/family-home/article/106040/Air-Cars:-
A-New-Wind-for-America's-Roads
•http://gas2.org/2008/07/15/an-air-car-you-could-see-in-2009-
zpms-106-mpg-compressed-air-hybrid/
•http://zeropollutionmotors.us/
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