Nonrenewable Energy Sources Oil drilling platform on legs Mined coal Pipeline Pump Oil well Gas well Oil storageCoal Oil and Natural Gas Geothermal Energy.
Post on 26-Dec-2015
213 Views
Preview:
Transcript
Nonrenewable Energy SourcesNonrenewable Energy Sources
Oil drillingplatformon legs
Mined coal
Pipeline
Pump
Oil well
Gas well
Oil storage
CoalCoalOil and Natural GasOil and Natural Gas Geothermal EnergyGeothermal Energy
Hot waterstorage
Contourstrip mining
PipelineDrillingtower
Magma
Hot rock
Natural gasOil
Impervious rock
Water Water
Floating oil drillingplatform
Valves
Undergroundcoal mine
Water is heatedand brought upas dry steam or
wet steam
Waterpenetratesdownthroughtherock
Area stripmining
Geothermalpower plant
Coal seam
Nature and Formation of Mineral ResourcesNature and Formation of Mineral Resources
ExistenceExistence
Decreasing certaintyDecreasing certainty KnownKnown
Dec
reas
ing
co
st
of
extr
acti
on
Dec
reas
ing
co
st
of
extr
acti
on
OtherOtherresourcesresources
ReservesReserves
Undiscovered Identified
No
t ec
on
om
ical
No
t ec
on
om
ical
Eco
no
mic
alE
con
om
ical
Primitive
Hunter–gatherer
Earlyagricultural
Advancedagricultural
Earlyindustrial
Modern industrial(other developed
nations)
Modern industrial(United States)
Society Kilocalories per Person per Day
260,000
130,000
60,000
20,000
12,000
5,000
2,000
Evaluating Energy ResourcesEvaluating Energy Resources
Renewable energy Renewable energy
Non-renewable energy Non-renewable energy
Future availability Future availability
Net energy yield Net energy yield
Cost Cost
Environmental effects Environmental effectsWorld
NaturalGas23%
Coal22%
Biomass12%
Oil30%
Nuclear power6%
Hydropower,geothermal,Solar, wind
7%
North American Energy ResourcesNorth American Energy Resources
CoalCoal
GasGas
OilOil
High potentialHigh potentialareasareas
MEXICO
UNITED STATES
CANADA
PacificOcean
AtlanticOcean
GrandBanks
Gulf ofAlaska
Valdez
ALASKABeaufort
Sea
Prudhoe Bay
ArcticOcean
PrinceWilliam Sound
Arctic National Wildlife Refuge
Trans Alaskaoil pipeline
Year
210020251950187518000
20
40
60
80
100C
ontr
ibut
ion
to t
otal
ene
rgy
cons
umpt
ion
(per
cent
)Wood
Coal
Oil
Nuclear
HydrogenSolar
Natural gas
Coal FormationCoal Formation
Removing Nonrenewable Mineral ResourcesRemoving Nonrenewable Mineral Resources
Surface miningSurface mining Subsurface miningSubsurface mining
Open-pitOpen-pit
Strip miningStrip mining
Mountain Top Removal
Underground Coal Mine
Burning Coal More CleanlyBurning Coal More Cleanly
Fluidized-Bed Combustion
Fluidized-Bed Combustion
Calcium sulfateand ash
Air
Air nozzles
WaterFluidized bed
Steam
Flue gases
Coal Limestone
OilOil
Petroleum (crude oil)Petroleum (crude oil)
Petrochemicals Petrochemicals Refining Refining TransportingTransporting
Diesel oil
Asphalt
Greaseand wax
Naphtha
Heating oil
Aviation fuel
Gasoline
Gases
Furnace
Heatedcrude oil
Opec countriesSaudi Arabia (11.9%), Iran (5.1%), Venezuela (4.7%), Iraq (3.6%), United Arab Emirates (3.2%), Nigeria (2.9), Libya (2%), Indonesia (2%), Algeria (1.6%), Qatar (1%)Non-Opec countriesUnited States (10.3%), Russia (8.8%), Mexico (4.8%), China (4.6%), Norway (4.3%), UK (4%), Canada (3.5%)(Percentages of world oil output)
World
Year1900 1925 1950 1975 2000 2025 2050 2075 21000
10
20
30
40A
nnua
l pro
duct
ion
(x 1
09 ba
rrel
s pe
r ye
ar)
2,000 x 109
barrels total
Low land use
Easily transportedwithin and between countries
High netenergy yield
Low cost (withhuge subsidies)
Ample supply for42–93 years
Advantages
Moderate waterpollution
Releases CO2 when burned
Air pollutionwhen burned
Artificially low price encourageswaste and discourages search for alternatives
Need to findsubstitute within50 years
Disadvantages
Oil ShaleOil Shale
Above Ground
Conveyor
Conveyor
Spent shale
Pipeline
Retort
Mined oil shale
Aircompressors
Shale oilstorage
Impuritiesremoved
Hydrogenadded
Crude oil Refinery
AirAirinjectioninjection
Shale layerShale layer
UndergroundUnderground
Sulfur and nitrogencompounds
Shale oil pumped to surfaceShale oil pumped to surface
Shale heated to vaporized kerogen, which is condensed to provide shale oilShale heated to vaporized kerogen, which is condensed to provide shale oil
Hydrogenadded
Impuritiesremoved
Syntheticcrude oil
Refinery
Pipeline
Tar sand is mined. Tar sand is heateduntil bitumen floats
to the top.
Bitumen vaporIs cooled andcondensed.
Tar Sands
Natural GasNatural Gas
50-90% methane50-90% methane
Approximate 200 year supplyApproximate 200 year supply
Advantages Disadvantages
Good fuel forfuel cells andgas turbines
Low land use
Easily transportedby pipeline
Moderate environ-mental impact
Lower CO2 emissions thanother fossil fuels
Less air pollutionthan otherfossil fuels
Low cost (withhuge subsidies)
High net energyyield
Ample supplies(125 years)
Sometimes burned off andwasted at wellsbecause of lowprice
Shipped acrossocean as highlyexplosive LNG
Methane(a greenhouse gas) can leakfrom pipelines
Releases CO2
when burned
Nuclear EnergyNuclear Energy
Fission reactors
Fission reactors
Uranium-235Uranium-235
Potentially dangerous
Potentially dangerous
Radioactive wastes
Radioactive wastes
Uranium fuel input(reactor core)
Periodic removaland storage of
radioactive wastesand spent fuel assemblies
Periodic removaland storage of
radioactive liquid wastes
Pump
Steam
Small amounts of Radioactive gases
Water
Black
Turbine Generator
Waste heat Electrical power
Hot water output
Condenser
Cool water input
Pump
PumpWasteheat
Useful energy25 to 30%
Wasteheat
Water source(river, lake, ocean)
Heatexchanger
Containment shell
Emergency coreCooling system
Controlrods
Moderator
Pressurevessel
Shielding
Coolantpassage
CoolantCoolant
Hot coolantHot coolant
The Nuclear Fuel CycleThe Nuclear Fuel Cycle
Front end Back end
Uranium mines and millsOre and ore concentrate (U3O8)
Geologic disposalof moderate-and high-levelradioactive wastes
High-levelradioactivewaste orspent fuelassemblies
Uranium tailings(low level but long half-life)
Conversion of U3O8
to UF6
Processeduranium ore
Uranium-235 as UF6
Enrichment UF6
EnrichedUF6
Fuel fabrication
Spent fuelreprocessing
Plutonium-239as PuO2
(conversion of enriched UF6 to UO2
and fabrication of fuel assemblies)
Fuel assemblies Reactor Spent fuel assemblies
Interim storageUnder water
Open fuel cycle today
Prospective “closed” end fuel cycle
Decommissioningof reactor
Decommissioningof reactor
Spent fuelassembliesSpent fuelassemblies
Low risk of accidents because of multiplesafety systems(except in 35 poorly designed and run reactors in former SovietUnion and Eastern Europe)
Moderate land use
Moderate landdisruption andwater pollution(without accidents)
Emits 1/6 asmuch CO2 as coal
Lowenvironmentalimpact (withoutaccidents)
Large fuelsupply
Spreads knowledge and technology for building nuclear weapons
No acceptable solution for long-term storage of radioactive wastes and decommissioning worn-out plants
Catastrophic accidents can happen (Chernobyl)
High environmental impact (with major accidents)
Low net energy yield
High cost (even with large subsidies)
Advantages Disadvantages
Dealing with Nuclear WasteDealing with Nuclear Waste
Low-level wasteLow-level wasteHigh-level wasteHigh-level wasteUnderground burialUnderground burialDisposal in spaceDisposal in spaceBurial in ice sheetsBurial in ice sheetsDumping into subduction zonesDumping into subduction zonesBurial in ocean mudBurial in ocean mud
Clay bottom
Up to 60deep trenchesdug into clay.
As many as 20flatbed trucksdeliver wastecontainers daily.
Barrels are stackedand surroundedwith sand. Coveringis mounded to aidrain runoff.
Fig. 14.38b, p. 351
Steamgenerator
Waterpumps
Crane formoving fuel rods
TurbinesTurbines
ReactorReactor
Coolingpond
Coolingpond
Reactor power output was lowered too much, making it too difficult to control.
Additional water pump to cool reactor was turned on. But with low power output and extra drain on system, water didn’t actually reach reactor.
Automatic safety devices that shut down the reactor when water and steam levels fall below normal and turbine stops were shut off because engineers didn’t want systems to “spoil” experiment.
Radiation shieldsRadiation shields
Almost all control rods were removed from the core during experiment.
Emergency cooling system was turned off to conduct an experiment.
Fig. 14.37, p. 350
top related