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Energy Intensive Infrastructure Investments with Retrofits in Continuous Time : Effects of Uncertainty on Energy Use and Carbon Emissions

Energy-intensive infrastructure may tie up fossil energy use and carbon emissions for a long time after investments, making the structure of such investments crucial for society. Much or most of the resulting carbon emissions can often be eliminate...

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Bibliographic Details
Main Authors: Framstad, Nils Christian, Strand, Jon
Language:English
en_US
Published: World Bank, Washington, DC 2013
Subjects:
ABATEMENT
ABATEMENT COSTS
ABATEMENT POLICIES
AGGREGATE EMISSIONS
ALLOCATION
APPROACH
ATMOSPHERE
AVAILABILITY
BALANCE
CALCULATION
CARBON
CARBON CAPTURE
CARBON EMISSIONS
CARBON EMISSIONS FROM FOSSIL
CARBON PRICES
CDF
CLIMATE
CLIMATE CATASTROPHE
CLIMATE DAMAGES
CLIMATE POLICY
CO2
COAL
CONVERGENCE
COOLING SYSTEMS
COST FUNCTIONS
COST SAVINGS
DIESEL
ECONOMIC DYNAMICS
ELASTICITY
ELECTRIC VEHICLES
EMISSION
EMISSION INTENSITY
EMISSION LEVEL
EMISSION LEVELS
EMISSION RATES
EMISSION REDUCTION
EMISSIONS INTENSITY
EMISSIONS LEVELS
EMISSIONS PATH
EMISSIONS PRICES
EMISSIONS RATES
ENERGY CONSUMPTION
ENERGY COSTS
ENERGY ECONOMICS
ENERGY INTENSITY
ENERGY PRICES
ENERGY SOURCE
ENERGY SUPPLY
ENERGY USE
ENVIRONMENTAL
ENVIRONMENTAL COSTS
ENVIRONMENTAL DAMAGES
ENVIRONMENTAL ECONOMICS
ENVIRONMENTAL POLICY
FOSSIL ENERGY
FOSSIL FUELS
FUEL
FUEL COST
GAS
GAS EMISSIONS
GASOLINE
GHG
GHGS
GLOBAL EMISSIONS
GREENHOUSE
GREENHOUSE GAS
GREENHOUSE GAS EMISSIONS
GREENHOUSE GASES
INCOME
INFRASTRUCTURE COST
INFRASTRUCTURE DEVELOPMENT
INFRASTRUCTURE INVESTMENT
INFRASTRUCTURE PROJECTS
INVESTMENT DECISIONS
IRREVERSIBILITY
LOWER COSTS
MARGINAL COST
MARGINAL COSTS
MODELLING ENERGY
MOTOR VEHICLE
MOTOR VEHICLES
OPTION VALUE
POLICY MAKERS
POLLUTION
POWER
POWER PLANTS
POWER PRODUCTION
PRESENT VALUE
PRIVATE TRANSPORT
PROBABILITY DENSITY
PROBABILITY DISTRIBUTION
PROBABILITY DISTRIBUTIONS
PUBLIC TRANSPORT
PUBLIC TRANSPORT SYSTEMS
REDUCING EMISSIONS
RENEWABLE ENERGY
RENEWABLE ENERGY SOURCES
RETROFIT DECISIONS
RETROFIT OPTION
RETROFITTING
ROAD
ROAD EXPANSION
ROADS
SEQUESTRATION TECHNOLOGIES
STOCHASTIC PROCESS
SUPPLY SIDE
TOTAL EMISSIONS
TRANSPORT
TRANSPORT SYSTEMS
TRUE
UNCERTAINTY ANALYSIS
VALUE OF ENERGY
VEHICLE FLEETS
WIND
Online Access:http://documents.worldbank.org/curated/en/2013/04/17648684/energy-intensive-infrastructure-investments-retrofits-continuous-time-effects-uncertainty-energy-use-carbon-emissions
http://hdl.handle.net/10986/15572
Description
Summary:Energy-intensive infrastructure may tie up fossil energy use and carbon emissions for a long time after investments, making the structure of such investments crucial for society. Much or most of the resulting carbon emissions can often be eliminated later, through a costly retrofit. This paper studies the simultaneous decision to invest in such infrastructure, and retrofit it later, in a model where future climate damages are uncertain and follow a geometric Brownian motion process with positive drift. It shows that greater uncertainty about climate cost (for given unconditional expected costs) then delays the retrofit decision by increasing the option value of waiting to invest. Higher energy intensity is also chosen for the initial infrastructure when uncertainty is greater. These decisions are efficient given that energy and carbon prices facing the decision maker are (globally) correct, but inefficient when they are lower, which is more typical. Greater uncertainty about future climate costs will then further increase lifetime carbon emissions from the infrastructure, related both to initial investments, and to too infrequent retrofits when this emissions level is already too high. An initially excessive climate gas emissions level is then likely to be worsened when volatility increases.

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