Hydrogen Analysis Projects by Title
Below are hydrogen analyses and analytical models grouped by title.
A
- A Portfolio of Power-Trains for Europe
- Advanced Vehicle Cost and Energy-use Model (AVCEM)
- Advanced Vehicle Introduction Decisions (AVID) Model
- Advanced Vehicle Simulator (ADVISOR)
- AirCRED Model
- All Modular Industry Growth Assessment (AMIGA) Model
- Analysis of Business Cases with the Fuel Cell Power Model
- Analysis of Energy Infrastructures
- Analysis of the Transition to Hydrogen Fuel Cell Vehicles
- Automotive System Cost Model (ASCM)
B
- Biofuels in Light-Duty Vehicles
- Biogas Resources Characterization
- Biological Water-Gas Shift
- Biomass Gasification, Microturbines and Fuel Cells for Farming Operations
- Biomass Integrated Gasification Combined-Cycle Power Systems
- Biomass Supply for Bioenergy and Bioproducts
- Building Energy Optimization (BEopt)
C
- Cap and Trade Features of Lieberman-Warner Climate Security Act
- Carbon Dioxide Compression, Transport, and Storage
- CASCADE Refueling Software
- Centralized Hydrogen Production from Biomass Gasification
- Centralized Hydrogen Production from Coal Gasification with Sequestration
- Centralized Hydrogen Production from Nuclear Sulfur-Iodine Process
- Centralized Hydrogen Production from Wind
- Ceramic Membrane Reactors for Converting Natural Gas to Hydrogen
- Clean Energy Technology Economics & Emissions Model (CETEEM)
- CO2 Reduction Benefits Analysis for Fuel Cell Applications
- Coal Distribution Constraints
- Codes & Standards Analysis
- Consumer Preferences for Refueling Availability
- Cost Analysis of Proton Exchange Membrane Fuel Cell Systems for Transportation
- Cost Optimization of Proton Exchange Membrane Fuel Cells
- Costs of Storing and Transporting Hydrogen
- Cryogenic Tank Analysis Program (CTAP)
D
- Distributed Energy Resources Customer Adoption Model (DER_CAM)
- Distributed Hydrogen Fueling Systems Analysis
- Distributed Hydrogen Production from Natural Gas
- Distributed Hydrogen Production from Wind
- Distributed Hydrogen Production via Steam Methane Reforming
E
- Economic Analysis of Hydrogen Energy Station Concepts
- Electrolytic Hydrogen Production
- Emissions Analysis of Electricity Storage with Hydrogen
- Energy, Carbon and Water Analysis
- Environmental Impacts of Hydrogen
- Ethanol-Diesel Blends in Buses and Tractors
F
- FLOW Model
- Fuel Cell Power Model
- Fuel Cell Systems Analysis
- Fuel Cell Water Transport Mechanism
- Fuel Choice for Fuel Cell Vehicles
- Fuel Quality Effects on Stationary Fuel Cell Systems
- Future Fuel Cell and Internal Combustion Engine Automobile Technologies
G
- Gasification-Based Fuels and Electricity Production from Biomass
- GCtool-ENG
- Geospatial Analysis of Hydrogen Production Pathways
- Global Energy Scenarios Meeting Stringent CO2 Constraints
- GREET Model
H
- H2 Delivery Infrastructure Analysis
- H2 Fueling Appliances Cost and Performance
- H2 Production by Fermentation
- H2A Case Study: Current Central Coal without Sequestration
- H2A Case Study: Current Central Biomass
- H2A Case Study: Current Central Grid Electrolysis
- H2A Case Study: Current Central Natural Gas Reforming without Sequestration
- H2A Case Study: Current Distributed Ethanol Reformer
- H2A Case Study: Current Distributed Grid Electrolysis
- H2A Case Study: Current Distributed Natural Gas Steam Reformer
- H2A Case Study: Future Central Biomass
- H2A Case Study: Future Central Coal without Sequestration
- H2A Case Study: Future Central Grid Electrolysis
- H2A Case Study: Future Central Natural Gas Reforming without Sequestration
- H2A Case Study: Future Central Nuclear
- H2A Case Study: Future Distributed Ethanol Steam Reformer
- H2A Case Study: Future Distributed Grid Electrolysis
- H2A Case Study: Future Distributed Natural Gas Steam Reformer
- H2A Delivery Components Model
- H2A Delivery Scenario Analysis Model (HDSAM)
- H2A Production Model
- H2Lib Simulations of Hydrogen Power Parks
- H2M Model of H2 Production in a Greenhouse Gas Constrained Situation
- Hawaii Transportation Energy Strategy
- High Temperature Electrolysis (HTE)
- HyDRA: Hydrogen Demand and Resource Analysis Tool
- Hydrogen (H2) Co-Production Integrated with Stationary Fuel Cell Systems
- Hydrogen Demand and Infrastructure Deployment
- Hydrogen Deployment System (HyDS) Model and Analysis
- Hydrogen Dynamic Infrastructure and Vehicle Evolution (HyDIVE) Model
- Hydrogen Energy Station Validation
- Hydrogen for Energy Storage
- Hydrogen from Renewable Energy
- Hydrogen Fueling Infrastructure Analysis
- Hydrogen Fueling Station Economics Model
- Hydrogen Futures Simulation Model (H2 Sim)
- Hydrogen Infrastructure Costs
- Hydrogen Infrastructure Market Readiness Analysis
- Hydrogen Passenger Vehicle Transportation Pathways
- Hydrogen Pathways Analysis
- Hydrogen Production by Photovoltaic-powered Electrolysis
- Hydrogen Production from Renewable Electricity
- Hydrogen Production from Renewables - Technoeconomic Analysis
- Hydrogen Quality Issues for Fuel Cell Vehicles
- Hydrogen Storage Systems Analysis
- Hydrogen Storage Systems Cost Analysis
- Hydrogen Systems Analysis, Education, and Outreach
- Hydrogen Technology Assessment and Selection Model (HyTASM)
- Hydrogen Transition Analysis Using Agent-based Modeling
- Hydrogen Transition Model (HyTrans)
- Hydrogen Vehicle Safety
- Hydrogen’s Role in Climate Mitigation and Oil Dependence Reduction
- HyWays-IPHE Comparison Between E3database, H2A and GREET
I
- Impact of Hydrogen Production on U.S. Energy Markets
- Impact of Plug-in Hybrid Vehicles on the Electric Grid
- Impact of Renewables on Hydrogen Transition Analysis
- Incentives Options for Hydrogen-Fueled Vehicles
- Infrastructure Analysis of Early Market Transition of Fuel Cell Vehicles
- Investigating Failure in Polymer-Electrolyte Fuel Cells
L
- Lessons Learned from Stationary Power Generation
- Life Cycle Analysis of Vehicles for Canada
- Life Cycle Assessment of Hydrogen Fuel Cell and Gasoline Vehicles
- Life-Cycle Analysis of Emissions from Stationary Fuel-Cell Systems
- Lifecycle Emissions Model (LEM)
M
- Macro Analysis of Refining Systems (MARS) Model
- Macro-System Model
- MARKAL (MARKet ALlocation) Model
- MetaNET Model
- MiniCAM
- MOBILE - Vehicle Emission Modeling Software
- MOVES (Motor Vehicle Emission Simulator)
N
- NEMS-H2 (National Energy Modeling System)
- Non-Automotive Fuel Cells: Market Assessment and Analysis of Impacts of Policies
- Novel Non-Precious Metal Catalysts
O
P
- Pathways to Commercial Success: DOE-Supported Technologies and Products
- PEMFC Manufacturing Cost
- Photobiological Hydrogen Production from Green Algae Cost Analysis
- Policy Office Electricity Modeling System (POEMS)
- Potential Environmental Impacts of Hydrogen-Based Transportation & Power Systems
- Powertrain Systems Analysis Toolkit (PSAT)
- Production of Hydrogen by Photovoltaic-powered Electrolysis
- Production of Hydrogen from Coal
- Projected Benefits - GPRA
- PV-Hydrogen System Simulator (PVHYDRO)
Q
R
- Regional Hydrogen Transition Strategies
- Regional Price Model
- Renewable Energy Power System Modular Simulator (RPM-Sim)
- Review of FreedomCAR and Fuel Partnership
- Risk Analysis in Support of EERE’s Portfolio Analysis
S
- Scale-Up of Carbon/Carbon Bipolar Plates
- Second Generation Model (SGM)
- Solid Oxide Fuel Cell Auxiliary Power Unit Modeling and Control
- Stochastic Energy Source Access Management (SESAM)
- Stranded Biogas Decision Tool for Fuel Cell Co-Production
T
- The Hydrogen Economy: Opportunities, Costs, Barriers, and Research and Development Needs
- The Oil Security Metrics Model
- Thermocatalytic Decomposition of Natural Gas
- Transition Analysis - H2 Production and Delivery Infrastructure
- Transition to Hydrogen Transportation Fuel
- Transitional Alternative Fueled Vehicle (TAFV) Model
- Transportation Routing Analysis GIS Model