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

Like us on
Connect on
Follow us on
View us on

Search Faculty Experts

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

Featured Faculty Profile

Mladen Kezunovic

Find Faculty Experts

Contact

Address