Davis, Matthew

Publications, Activities, and Awards

• A decarbonization assessment of Canada’s electricity generation sector.
• An integrated assessment framework for the decarbonization of the electricity generation sector
• Assessing the cost competitiveness of electrolytic hydrogen production from small modular nuclear power plants.
• Assessment of greenhouse gas mitigation options for the iron, gold, and potash mining sectors
• Water-use implications of low-carbon pathways in the oil sands.
• A decarbonization assessment of Canada's electricity generation sector.
• A framework to identify marginal electricity production technologies for consequential life cycle assessment: A case study of the electricity sector
• A look into Canada’s future electricity grid greenhouse gas emissions factors
• A novel technology-explicit framework for predicting the efficiency of industrial device retrofits in stock turnover models for the pulp and paper sector
• A strategy assessment to decarbonize road transport in Alberta
• Achieving net-zero greenhouse gas emissions in Canada by 2050 what does it mean?
• Achieving net-zero greenhouse gas emissions in Canada by 2050 – what does it mean?
• An assessment of opportunities for cogenerating electricity to reduce greenhouse gas emissions in the oil sands
• Analysis of Canada’s water use: Tracing water flow from source to end use
• Assessing decarbonization of the electricity supply sector through comprehensive integrated scenario analysis.
• Assessing present and future water flows in Canada with a focus on the energy supply sectors
• Assessing the cost competitiveness of electrolytic hydrogen production from small modular nuclear reactor-based power plants: a price-following perspective
• Assessing the impacts and costs of using low carbon energy technologies to reduce greenhouse gas emissions in the oil sands
• Assessing the potential impact and cost of using low carbon energy technologies for reducing greenhouse gas emissions in the oil sands
• Assessing the value of electrolytic hydrogen in power sectors for reversible gas-to-power conversion and emissions reduction
• Assessing the value of electrolytic hydrogen in power sectors for reversible gas-to-power conversion and emissions reduction.
• Assessment of decarbonizing the road transportation sector using low carbon fuels
• Assessment of energy demand-based greenhouse gas mitigation options for Canada’s oil sands
• Assessment of greenhouse gas abatement scenarios for the pulp and paper sector
• Assessment of greenhouse gas reduction options for Canada’s iron, gold, and potash mining sectors.
• Assessment of renewable energy transition pathways for a fossil fuel-dependent electricity-producing jurisdiction
• Can low-carbon hydrogen from Canada be competitive in international markets?
• Comparative cost and greenhouse gas emission assessment of land-based hydrogen transportation systems.
• Decarbonization of the electricity supply sector through development of energy systems model.
• Developing a framework to assess the long-term environmental consequences of the transition to cleaner electricity generation: the case of Alberta
• Developing a techno-economic model to evaluate the cost performance of a zeolite 13X-based space heating system
• Development of a bottom-up framework to determine energy efficiency contribution potential of more than 100 measures for meeting national net-zero GHG emissions.
• Development of a framework to assess the greenhouse gas mitigation potential from the adoption of low-carbon road vehicles in a hydrocarbon-rich region
• Development of an economy-wide decarbonization assessment framework for an emission intensive and a net energy exporting jurisdiction.
• Development of disaggregated energy use and greenhouse gas emission footprints in Canada's iron, gold, and potash mining sectors
• Development of energy efficiency cost curves: pulp & paper and iron & steel sectors
• Development of long-term forecasting model to assess current and future water flows in Canada for energy supply sectors.
• Development of long-term GHG mitigation options for the Canadian oil sands
• Development of technology-explicit energy saving bandwidths: a case study for the pulp and paper sector
• Energy efficiency as a critical resource to achieve carbon neutrality in pulp and paper sector
• Evaluating long-term greenhouse gas mitigation opportunities through carbon capture, utilization, and storage in the oil sands
• Evaluation of using Alberta hydrogen for clean-firm power in decarbonized power grids
• Green hydrogen production in Canada for export to Europe – An assessment of technical potential.
• Greenhouse gas emission abatement potential and associated costs of integrating renewable and low carbon energy technologies into the Canadian oil sands
• Greenhouse gas intensity and share of low-carbon technology vehicles in 2050.
• How effective is hydrogen-natural gas blending at reducing greenhouse gas emissions?
• How to model a complex national energy system? Developing an integrated energy systems framework for long-term energy and emissions analysis
• How will Canada’s GHG emissions change by 2050? A disaggregated analysis of past and future GHG emissions using bottom-up energy modelling and Sankey diagrams
• Integrated assessment of environmental footprints for energy scenarios
• Is there a value for low carbon hydrogen exports from Alberta, Canada in international markets?
• LEAP Canada: Pulp and paper energy and GHG analysis
• Long-range Energy Alternatives Planning System - Application to Canada.
• Long-term energy transition in road transportation by 2050: a system-wide cost, market share, and greenhouse gas emission comparison of conventional, battery electric and hydrogen fuel-cell vehicles.
• Long-term evaluation of carbon capture and low-carbon energy technologies in the oil sands
• Long-term integrated assessment of water and GHG impacts of a transition to low-carbon unconventional oil extraction.
• Mapping Canadian energy flow from primary fuel to end use
• Net-zero pathways for cement sector
• Oil’s cost on water: bottom up modelling of Canada’s oil and gas sector water use and the effect of commodity price
• Projections of cost of ownership; GHG intensity; and market share of vehicles in the passenger and freight transportation sectors.
• Quantitative Assessment of GHG and Water Footprints for Energy Scenarios.
• Technical potential of hydrogen and GHG emission in its transportation through natural gas pipelines
• Techno-economic assessment of low-carbon hydrogen export from Western Canada to Eastern Canada, the USA, the Asia-Pacific, and Europe
• Technology-based Options for Achieving Net-zero GHG Emissions in Canada
• The development of a framework to assess long-term water supply and demand projections for integrated assessment of environment impacts for the energy sector
• The development of a GIS-based framework to assess the technical hydrogen production potential from wind and solar energy
• The Development of a Technology-Explicit Bottom-Up Integrated Multi-Regional Energy Model of Canada
• The development of data-intensive models for the estimation of GHG intensity, cost and market shares of vehicles in the passenger and freight transportation sectors by 2050
• The development of techno-economic models for the assessment of low-carbon hydrogen export from Western Canada to Eastern Canada, the USA, the Asia-Pacific, and Europe
• The greenhouse gas reduction potential and cost-effectiveness of economy-wide hydrogen-natural gas blending for energy end uses
• The technical and economic potential for improving energy efficiency in the Canadian pulp and paper sector.
• Water-use implications of low carbon pathways in the oil and gas sector
• Water-use implications of low carbon pathways in the oil and gas sector
• Water-use implications of low-carbon pathways in the oil and gas sector