Toward a Sustainable Global Energy Supply Infrastructure : Net Energy Balance and Density Considerations

Toward a Sustainable Global Energy Supply Infrastructure : Net Energy Balance and Density Considerations

This paper complements previous work on the economics of different energy resources by examining the growth potential of alternative electricity supply infrastructures as constrained by innate physical limits. Coal-fired generation meets the criter...

Full description

Bibliographic Details
Main Authors: Kessides, Ioannis N., Wade, David C.
Format: Policy Research Working Paper
Language:English
Published: 2012
Subjects:
AIR
ALTERNATIVE ENERGY
ALTERNATIVE FUELS
ALTERNATIVE TECHNOLOGIES
ALTITUDE
ANTHROPOGENIC GREENHOUSE
ANTHROPOGENIC GREENHOUSE WARMING
ATMOSPHERE
ATMOSPHERIC PRESSURE
AVAILABILITY
CALCULATION
CAPACITY FACTOR
CAPACITY FACTORS
CARBON
CARBON CAPTURE
CARBON DIOXIDE
CARBON DIOXIDE EMISSIONS
CARBON ECONOMY
CARBON EMISSION
CARBON FOOTPRINT
CARBON INTENSITY
CARBON SUPPLY
CLEAN COAL
CLEAN COAL TECHNOLOGIES
CLIMATE
CLIMATE CHANGE
CLIMATE CHANGE POLICY
CLIMATE POLICY
CLOUD COVER
CO
CO2
COAL
COAL RESERVES
COAL TECHNOLOGIES
COMBUSTION
CONVENTIONAL FOSSIL FUELS
CONVENTIONAL FUELS
CONVENTIONAL OIL
CONVERGENCE
CONVERSION PROCESS
COST OF ENERGY
ELECTRICITY
ELECTRICITY GENERATION
ELECTRICITY GENERATION CAPACITY
ELECTRICITY GENERATION TECHNOLOGIES
ELECTRICITY PRODUCTION
ELECTRICITY SUPPLY
EMISSION
EMISSIONS FROM COAL
END USE
END USER
ENERGY ANALYSIS
ENERGY CARRIER
ENERGY CARRIERS
ENERGY CONSUMPTION
ENERGY COSTS
ENERGY ECONOMICS
ENERGY EXTRACTION
ENERGY INFRASTRUCTURE
ENERGY INPUT
ENERGY INVESTMENTS
ENERGY MARKETS
ENERGY MIX
ENERGY OUTLOOK
ENERGY OUTPUT
ENERGY PERFORMANCE
ENERGY POLICY
ENERGY PROBLEM
ENERGY PRODUCTION
ENERGY REQUIREMENTS
ENERGY RESOURCES
ENERGY SOURCE
ENERGY SOURCES
ENERGY SYSTEMS
ENERGY USE
ENVIRONMENTAL IMPACT
ENVIRONMENTAL PROBLEMS
EVAPORATION
EXCESS CAPACITY
FOSSIL
FOSSIL FUEL
FOSSIL FUEL POLLUTANTS
FOSSIL FUEL RESOURCES
FOSSIL FUELS
FOSSIL-FUEL
FUEL
FUEL EXTRACTION
FUEL USE
GAS PLANTS
GAS RESERVES
GAS TURBINE
GASES
GENERATING CAPACITY
GENERATION
GENERATION SYSTEMS
GHG
GLOBAL ELECTRICITY GENERATION
GLOBAL ENERGY DEMAND
GLOBAL ENERGY MIX
GLOBAL ENERGY SUPPLY
GOLD
GREENHOUSE
GREENHOUSE GAS
GREENHOUSE GAS EMISSIONS
GREENHOUSE GAS MITIGATION
GROWTH IN ENERGY DEMAND
HEAT
HEAVY METALS
HIGH ENERGY DENSITY
HIGHER ENERGY DENSITY
HOT WATER
HYDROELECTRIC ENERGY
HYDROELECTRIC POWER
HYDROPOWER
INSOLATION
INTERNATIONAL ENERGY AGENCY
IRON
KINETIC ENERGY
LARGE WIND FARMS
LIQUID FUELS
LIVING STANDARDS
LNG
LOAD FACTOR
LOW-CARBON
MERCURY
MITIGATION TECHNOLOGIES
NATIONAL ENERGY DEMAND
NATURAL GAS
NET ENERGY BALANCE
NEW PLANT
NEW PLANTS
NITROGEN
NITROGEN OXIDES
NUCLEAR ENERGY
NUCLEAR PLANTS
NUCLEAR POWER
NUCLEAR POWER PLANT
NUCLEAR POWER PLANTS
NUCLEAR POWER STATIONS
NUCLEAR REACTORS
NUCLEAR SAFETY
OIL
OIL EQUIVALENT
OIL GAS COAL
OIL SANDS
PARTICULATE
PARTICULATE MATTER
PETROLEUM
PHOTOVOLTAIC CELLS
PHOTOVOLTAICS
PHYSICS
PLANT PERFORMANCE
POLLUTANTS
POWER GENERATION
POWER GENERATION CAPACITY
POWER PLANTS
POWER PRODUCTION
POWER RATING
POWER STATION
POWER SYSTEMS
PRECIPITATION
PRICE VOLATILITY
PRIMARY ENERGY
PRIMARY ENERGY DEMAND
PRIMARY ENERGY SOURCE
RAIN
RAINFALL
RAINWATER
RENEWABLE ELECTRICITY
RENEWABLE ENERGY
RENEWABLE ENERGY SOURCES
RENEWABLE ENERGY SYSTEM
RENEWABLE GENERATION
RENEWABLE RESOURCES
RENEWABLE SOURCES
RENEWABLE SOURCES OF ENERGY
RENEWABLE TECHNOLOGIES
SILICON
SINK
SOLAR ENERGY
SOLAR ENERGY CONVERSION
SOLAR PANELS
SOLAR POWER
SOLAR RADIATION
SOLAR RESOURCE
SOLAR RESOURCES
SOURCE OF ENERGY
SULFUR
SULFUR DIOXIDE
SUNLIGHT
SUNSHINE
SURPLUS ENERGY
SUSTAINABLE DEVELOPMENT
SUSTAINABLE ENERGY
THERMODYNAMICS
TRANSPORT SECTOR
URANIUM
URANIUM RESOURCES
WASTE
WASTE DISPOSAL
WIND
WIND ENERGY
WIND FARM
WIND FARMS
WIND PENETRATION
WIND POWER
WIND POWER SYSTEMS
WIND SPEED
WIND TURBINE
WIND TURBINES
WINDMILL
WINDMILLS
WORLD ENERGY
WORLD ENERGY COUNCIL
WORLD ENERGY MARKETS
WORLD ENERGY OUTLOOK
Online Access:http://www-wds.worldbank.org/external/default/main?menuPK=64187510&pagePK=64193027&piPK=64187937&theSitePK=523679&menuPK=64187510&searchMenuPK=64187283&siteName=WDS&entityID=000158349_20110118143248
http://hdl.handle.net/10986/3311
Description
Summary:This paper complements previous work on the economics of different energy resources by examining the growth potential of alternative electricity supply infrastructures as constrained by innate physical limits. Coal-fired generation meets the criteria of longevity (abundance of energy source) and scalability (effective capability to expand to the multi-terawatt level) which are critical for a sustainable energy supply chain, but it carries a very heavy carbon footprint. Renewables and nuclear power meet both the longevity and climate friendliness criteria. However, they vary in terms of their ability to deliver net energy at a scale needed for meeting a huge global energy demand. The low density of renewable resources for electricity generation and the current intermittency of many renewables limit their ability to achieve high rates of growth. And a significant global increase in nuclear power deployment could engender serious risks related to proliferation, safety, and waste disposal. Unlike renewable sources of energy, nuclear power is an unforgiving technology because human lapses and errors can have ecological and social impacts that are catastrophic and irreversible. The transition to a low carbon economy is likely to prove much more challenging than some optimists have claimed.

Similar Items