E - Negative Emissions Technologies
2017 BECCs are part of larger mitigation scenarios
2017 Best and worst case implications of biomass utilization
2017 Best land uses for CO2 mitigation in tropical and temperate zones
2017 CO2 emissions in 2050 based on BECC scenarios
2017 Diagram of BECCs process
2017 Economics of Ethanol + CCS
2017 First BECCs facility
2017 Global power mix in 2050 with BECCs
2017 Marginal cost curve for global biomass availability
2017 NET requirements as part of 2oC scenario
2017 Remaining research needs for large-scale BECCs
Low carbon may not be enough - may need to get to zero or negative carbon
I:ClimateRiskStressTesting
I:DDPDeepDecarbonizationPathways
I:DecisionmakingUnderUncertainty (Deep Dive)
I:EmissionsPathwaysfor2oC
I:EnergyDemandandGenerationMixfor2oC
I:LowCarbonTransitionEmissionsPathways
I:MarketTransformationfor2oC
I:NegativeEmissionsfor2oC
I:NETNegativeEmissionsTechnologies
I:ScenarioPlanningBackground
I:ScenarioPlanningforClimateChange (Deep Dive)
I:ScenarioPlanningGeneral (Deep Dive)
I:ScenarioPlanningToolsandDataSources
I:TechnologyInnovationinScenarioPlanning
S - 100% Renewable Energy Transition
S - Carbon Pricing Futures
S - Climate Change Scenario Planning
S - Climate Change Scenarios
S - Climate Scenario Variables
S - Probabilistic Decision-Making
S - SocioEconomic Pathways
N - 100% Renewable Future
N - Carbon Price Forecasting
N - Carbon Pricing Impacts
E - 2 Degree 450 PPM Pathway
E - 2020 - 2030 Low Carbon Pathways
E - 2050 Emissions Pathways
E - Achieving the 2 Degree target
E - Changing Probability Distributions
E - Economics of 2 Degree Target
E - Speed of Technology Diffusion
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Headings - Extracted Materials
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