Economic Implications of Reducing Carbon Emissions from Energy Use and Industrial Processes in Brazil

The overall impacts on the Brazilian economy of reducing CO2 emissions from energy use and industrial processes can be assessed using a recursive dynamic general equilibrium model and a hypothetical carbon tax. The study projects that in 2040 under a business-as-usual scenario, CO2 emissions from energy use and industrial processes would be almost three times as high as in 2010 and would account for more than half of total national CO2 emissions. Current policy aims to reduce deforestation by 70 percent by 2017 and emissions intensity of the overall economy by 36-39 percent by 2020. If policy is implemented as planned and continued to 2040, CO2 emissions from energy use and industrial processes would not have to be cut until 2035 as reductions of emissions through controlling deforestation would be enough to meet emission targets. The study also finds evidence that supports the double dividend hypothesis: using revenue from a hypothetical carbon tax to finance a cut in labor income tax significantly lowers the gross domestic product impacts of the carbon tax. Using carbon tax revenue to subsidize wind power can effectively increase the output of wind power in the country, although the impact of the tax on gross domestic product would be somewhat increased.

Bibliographic Details

Main Authors:	Chen, Y.-H. Henry, Timilsina, Govinda R.
Format:	Policy Research Working Paper biblioteca
Language:	English en_US
Published:	World Bank, Washington, DC 2012-07
Subjects:	ALLOCATION, ALLOWANCES, ANNUAL ENERGY OUTLOOK, APPROACH, BALANCE, BIOMASS, BIOMASS GENERATION, BURNING FOSSIL FUELS, CALCULATION, CANE INDUSTRY, CARBON, CARBON CONSTRAINTS, CARBON CONTENT, CARBON EMISSIONS, CARBON INTENSITY, CARBON MITIGATION, CARBON NEUTRAL, CARBON PRICE, CARBON PRICES, CARBON SOURCE, CARBON TAX, CARBON TAXES, CHEMICAL INDUSTRY, CLEAN ENERGY, CLIMATE, CLIMATE CHANGE, CLIMATE CHANGE MITIGATION, CLIMATE CHANGE MITIGATION POLICIES, CLIMATE POLICY, CO2, COAL, COAL GAS, COAL MINING, COMBUSTION, COMBUSTION EMISSIONS, COMPUTABLE GENERAL EQUILIBRIUM MODEL, COST-BENEFIT, COST-BENEFIT ANALYSIS, CRUDE OIL, CRUDE OIL PRICE, DEFORESTATION, DIESEL, DISTRIBUTIONAL IMPLICATIONS, DOUBLE DIVIDEND, DYNAMIC COMPUTABLE GENERAL EQUILIBRIUM, ECONOMIC ANALYSIS, ECONOMIC GROWTH, ECONOMIC IMPACT, ECONOMIC IMPACTS, ELASTICITY OF SUBSTITUTION, ELECTRICITY, ELECTRICITY GENERATION, ELECTRICITY GENERATION TECHNOLOGIES, ELECTRICITY SECTOR, ELECTRICITY SUPPLY, EMISSION, EMISSION COEFFICIENTS, EMISSION CUTS, EMISSION REDUCTION, EMISSION TARGETS, EMISSIONS DATA, EMISSIONS FACTORS, EMISSIONS FROM DEFORESTATION, EMISSIONS FROM ENERGY, EMISSIONS FROM ENERGY USE, EMISSIONS INTENSITIES, EMISSIONS INTENSITY, EMISSIONS PREDICTION, EMISSIONS REDUCTION, EMISSIONS REDUCTIONS, ENERGY CONSUMPTION, ENERGY DEMAND, ENERGY ECONOMICS, ENERGY INFORMATION ADMINISTRATION, ENERGY POLICY, ENVIRONMENTAL ECONOMICS, ENVIRONMENTAL IMPACT, ENVIRONMENTAL LAW, ETHANOL, FEEDSTOCK, FINANCIAL SUPPORT, FOREIGN EXCHANGE, FOREST, FOREST SECTOR, FORESTS, FOSSIL, FOSSIL FUEL, FOSSIL FUELS, FRAMEWORK CONVENTION ON CLIMATE CHANGE, FUEL CONSUMPTION, GAS PRODUCTION, GASOLINE, GASOLINE CONSUMPTION, GENERAL EQUILIBRIUM MODEL, GHG, GLOBAL CLIMATE CHANGE, GLOBAL WARMING, GREENHOUSE, GREENHOUSE GAS, GREENHOUSE GAS CONTROL, GREENHOUSE GAS EMISSIONS, GREENHOUSE GAS MITIGATION, GROSS DOMESTIC PRODUCT, HYDRO POWER, HYDRO POWER PLANTS, HYDROPOWER, IMPACTS OF CLIMATE CHANGE, INCOME, LABOR PRODUCTIVITY, LAND-USE CHANGE, LEVEL OF EMISSIONS, LOW-CARBON, METALS, NATIONAL EMISSIONS, NATURAL GAS, NATURAL GAS PRODUCTION, NEGATIVE IMPACT, NEGATIVE IMPACTS, NUCLEAR ELECTRICITY, OIL PRICE, OIL PRICES, OIL RESERVES, PETROLEUM, POLICY ANALYSIS, POLICY IMPLICATIONS, POLICY SCENARIOS, POLLUTION, POWER GENERATION, POWER PLANT, POWER PLANTS, PRICE INDEX, RELATIVE PRICES, REVENUE RECYCLING, SECTORAL RESULTS, SUBSTITUTION, SUGAR CANE, SUGARCANE, SUSTAINABLE DEVELOPMENT, TAX RATE, TAX REVENUE, THERMAL POWER, THERMAL POWER PLANTS, TRADE SYSTEM, TRANSPORT SECTOR, UTILITY FUNCTION, WIND, WIND GENERATION, WIND POWER, WIND POWER GENERATION, WIND POWER PLANTS, WORLD CRUDE,
Online Access:	http://documents.worldbank.org/curated/en/2012/07/16507192/economic-implications-reducing-carbon-emissions-energy-use-industrial-processes-brazil-economic-implications-reducing-carbon-emissions-energy-use-industrial-processes-brazil http://hdl.handle.net/10986/11943
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