Research

Themes, Areas and Topics

Transform the Energy Research Landscape

The Texas A&M Energy Institute interdisciplinary research program focuses on the interacting Themes of:

Theme 1: Fossil and Non-Fossil based Technologies for Energy

Theme 2: Materials, Catalysis, and Separations for Energy

Theme 3: Multi-scale Energy Systems Engineering

Theme 4: Energy Economics, Law, Policy, and Societal Impact

The four interconnected themes are further classified into the following (10) research Areas:

Area 1: Fossil-based Technologies for Energy

Area 2: Renewable Technologies for Energy

Area 3: Geothermal and Hydropower-based Technologies for Energy

Area 4: Nuclear Energy Technologies

Area 5: Energy Storage

Area 6: Energy Efficiency

Area 7: Carbon Capture, Utilization, and Storage

Area 8: Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems

Area 9: Energy Transmission

Area 10: Energy Policy, Law, Security, and Societal Impact

and the following Topics:

T1:

Petroleum exploration and production

T2:

Conventional and unconventional reservoirs

T3:

Drilling technologies

T4:

Natural/shale gas production

T5:

Natural/shale gas supply chain

T6:

Coal conversion to liquid fuels/chemicals/electricity

T7:

Biomass production

T8:

Biomass conversion to liquid fuels/chemicals/electricity

T9:

Biomass-based supply chain

T10:

Hybrid feedstocks (any combination of biomass/coal/natural gas/petroleum) conversion to liquid fuels/chemicals/electricity

T11:

Hybrid feedstocks-based supply chain

T12:

Hydrogen production

T13:

Hydrogen-based supply chain

T14:

Nuclear energy conversion technologies

T15:

Materials for nuclear fuels and system design

T16:

Nuclear safety and security

T17:

Solar energy conversion and lighting technologies

T18:

Materials for solar energy conversion and storage

T19:

Wind energy conversion technologies

T20:

Wind energy measurement, forecasting, and storage

T21:

Geothermal energy conversion and production

T22:

Reservoir geo-mechanics and geo-engineering

T23:

Hydropower energy conversion

T24:

Ocean energy conversion

T25:

Catalysis and reaction engineering for energy applications

T26:

Combustion

T27:

Multifunctional materials for energy applications

T28:

Separation technologies for energy applications (e.g., CO2 capture, utilization, storage)

T29:

Materials for separations in energy applications

T30:

Smart grid conversion and distribution technologies

T31:

Electric power generation and storage

T32:

Smart grid architecture

T33:

Smart grid safety and security

T34:

Fuel cells technologies and materials

T35:

Thermoelectrics-based technologies and materials

T36:

Technologies for energy storage: Batteries

T37:

Technologies for energy storage: Hydrogen

T38:

Technologies for energy storage: Supercapacitors

T39:

Modeling, simulation and optimization of energy systems

T40:

Design and synthesis of energy conversion systems

T41:

Energy supply chain

T42:

Control, scheduling, planning, safety, risk analysis, and uncertainty in energy systems

T43:

Energy economics

T44:

Energy law and policy

T45:

Energy and sustainability

T46:

Energy and water supply chain

T47:

Energy and food supply chain

T48:

Energy efficiency in urban systems

T49:

Energy use, conservation and lighting technologies for buildings

T50:

Energy in transportation systems: Electric, natural gas, and hybrid vehicles

T51:

Technologies for energy storage: Compressed air

T52:

Technologies for energy storage: Heat pumps

T53:

Applied superconductivity

T54:

Neutron imaging for energy materials

T55:

Nondestructive testing for energy applications

T56:

Biofuel biochemistry and energy metabolism

T57:

Energy security

T58:

Environmental risk assessment for planning offshore structures

T59:

Communications for energy systems

T60:

Water use in hydraulic fracturing

T61:

Technologies for energy storage: Flywheels

T62:

Environmental impacts of energy production

T63:

Turbomachinery for energy use and its reliability

T64:

Materials for wind energy

T65:

Crude oil processing: non-thermal, electrical discharge, and plasma processes

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Research

Themes, Areas and Topics

Transform the Energy Research Landscape

The Texas A&M Energy Institute interdisciplinary research program focuses on the interacting Themes of:

The four interconnected themes are further classified into the following (10) research Areas:

and the following Topics:

Themes, Areas and Topics

Fossil and Non-Fossil based Technologies for Energy

Fossil-based Technologies for Energy

Renewable Technologies for Energy

Geothermal and Hydropower-based Technologies for Energy

Nuclear Energy Technologies

Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems

Energy Transmission

Energy Policy, Law, Security, and Societal Impact

Materials, Catalysis, and Separations for Energy

Fossil-based Technologies for Energy

Renewable Technologies for Energy

Geothermal and Hydropower-based Technologies for Energy

Nuclear Energy Technologies

Energy Storage

Energy Efficiency

Carbon Capture, Utilization, and Storage

Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems

Multi-scale Energy Systems Engineering

Fossil-based Technologies for Energy

Renewable Technologies for Energy

Geothermal and Hydropower-based Technologies for Energy

Nuclear Energy Technologies

Energy Efficiency

Carbon Capture, Utilization, and Storage

Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems

Energy Transmission

Energy Policy, Law, Security, and Societal Impact

Energy Economics, Law, Policy, and Societal Impact

Fossil-based Technologies for Energy

Renewable Technologies for Energy

Geothermal and Hydropower-based Technologies for Energy

Nuclear Energy Technologies

Carbon Capture, Utilization, and Storage

Multi-scale Analysis, Simulation, Synthesis, and Optimization of Energy Systems

Energy Transmission

Energy Policy, Law, Security, and Societal Impact

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Peter M. McIntyre

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