Cover Image

Greenhouse Gases from Geothermal Power Production

Geothermal is a renewable source energy that can be used directly for heating or for power production. Geothermal utilization, particularly power production, may result in some greenhouse gas (GHG) emissions. GHG emissions from geothermal power pro...

Full description

Bibliographic Details
Main Authors: Fridriksson, Thráinn, Mateos, Almudena, Audinet, Pierre, Orucu, Yasemin
Language:English
en_US
Published: World Bank, Washington, DC 2016
Subjects:
GLOBAL WARMING POTENTIAL
CALCIUM
PHOTOSYNTHESIS
CO2 FLUX
TOTAL EMISSIONS
POWER PLANTS
TEMPERATURE
CARBON DIOXIDE
FOSSIL FUELS
CALCULATION
AIR QUALITY
CARBON
EMISSIONS FROM POWER PLANTS
CARBONATE MINERALS
GENERATION
NATURAL EMISSIONS
GEOTHERMAL ELECTRICITY
GEOTHERMAL FLUIDS
EMISSIONS
EMISSION ESTIMATES
ATMOSPHERE
CARBON DIOXIDE EMISSIONS
GHGS
GEOTHERMAL PROJECTS
GAS
PE
GREENHOUSE GAS EMISSION
GEOTHERMAL RESERVOIRS
GEOTHERMAL SECTOR
CHEMICAL INHIBITORS
NATIONAL GRID
AIR
GREENHOUSE GAS
CHEMICAL CHANGES
TRACE GASES
RADIATION
FUGITIVE EMISSIONS
EMISSION OFFSETS
CO2
WATER VAPOR
EMISSION ESTIMATE
OIL
POWER GENERATION
EMISSION FACTOR
GAS CONCENTRATIONS
EMISSION RATE
SUSTAINABLE ENERGY
GEOTHERMAL PLANT
RENEWABLE SOURCE
KILOWATT HOUR
CAPACITY
PRODUCTION OF ELECTRICITY
GHG
CHEMICAL COMPOSITION
EMISSION DATA
OPTIONS
GLOBAL WARMING
WATER
CONVERSION PROCESS
FUGITIVE” EMISSIONS
CONVENTION ON CLIMATE CHANGE
NH3
HYDROGEN SULFIDE
EMISSION ANALYSIS
GEOTHERMAL CAPACITY
CH4
GEOTHERMAL ENERGY
GAS EMISSIONS
THERMAL ENERGY
CHEMISTRY
PRECIPITATION
HYDROGEN
FUEL CONSUMPTION
FUELS
SULFUR
POWER PRODUCERS
DRY GAS
GREENHOUSE GASES
CARBON EMISSIONS
SILICATES
HIGHER GAS
GREENHOUSE
EMISSION
POWER GENERATION FACILITIES
CARB
LEAD
HEAT
IPCC
CLIMATE CHANGE
ELECTRIC POWER
GEOTHERMAL POWER
GEOTHERMAL POWER PLANTS
POWER
EMISSIONS DATA
ELECTRICITY
GAS SUPPLY
CLIMATE
GREEN POWER
DISTILLATION
HYDROPOWER
GLOBAL EMISSION
ELECTRICITY GENERATION
COLORS
FOSSIL FUEL
EMISSION FACTORS
ENERGY EXTRACTION
AMMONIA
GEOTHERMAL FLUID
PLANT OPERATIONS
CO
ATMOSPHERIC PRESSURE
ENERGY PRODUCTION
POWER PRODUCTION
TURBINES
GAS EMISSION
ENERGY EFFICIENCY
MAGNESIUM
NATURAL GAS
COMBUSTION
INVESTMENT
GEOTHERMAL POWER PRODUCTION
GEOTHERMAL SYSTEMS
CHEMICAL REACTIONS
AMBIENT CONDITIONS
COAL
FUEL
DRILLING
GEOCHEMISTRY
LESS
FACILITIES
GAS CONCENTRATION
GEOTHERMAL RESOURCES
CHEMICAL ANALYSIS
METHANE
CONDENSATION
RENEWABLE ENERGY
SPACE HEATING
GASES
ELECTRICITY PRODUCTION
DRY STEAM
ACID
FRAMEWORK CONVENTION ON CLIMATE CHANGE
FOSSIL
DISSOLUTION
APPROACH
AMBIENT TEMPERATURE
POWER PLANT
BENEFITS
ENERGY
Online Access:http://documents.worldbank.org/curated/en/2016/06/26519830/greenhouse-gases-geothermal-power-production
http://hdl.handle.net/10986/24691
Description
Summary:Geothermal is a renewable source energy that can be used directly for heating or for power production. Geothermal utilization, particularly power production, may result in some greenhouse gas (GHG) emissions. GHG emissions from geothermal power production is generally small in comparison to traditional base load thermal energy power generation facilities. This is mainly due to the fact that the large majority of installations draw their geothermal energy from geothermal reservoirs with low GHG concentrations. However, as the geothermal sector has expanded, a wider range of geothermal resources have been brought into exploitation, including geothermal systems with relatively high GHG concentrations in the reservoir fluid. There is a growing realization within the geothermal community that geothermal power plants can, in rare instances, release significant quantities GHG into the atmosphere. This interim technical note presents an overview of the current knowledge on GHG emissions from geothermal systems and geothermal power plants, and gives guidance on how to assess GHG emissions from geothermal projects when this is required, depending on their stage of development. This note identifies critical knowledge gaps and presents recommendations as to how close these gaps and proposes an interim methodology to estimate GHG emissions from geothermal projects that financing institutions, such as the World Bank, intend to support. The plan is to update this note when the methodology has been tested by application to actual projects and some of the current knowledge gaps have been closed as more information become available. This note proposes a way to estimate future emission factors for geothermal projects under development. For instance, if a pumped binary power plant is planned, the emission factor will be 0. Projects using other energy conversion technologies will result in some emissions. For projects where wells have been drilled and tested, formulas are provided to compute emission factors based on the chemical composition of the geothermal fluid and the design parameters of the power plant. For projects located in the vicinity of existing power plants in analogous geologic settings, emission factors from the existing plants can be used.

Similar Items