Ryan Lively

Ryan Lively

Ryan Lively

Professor
Thomas C. DeLoach Jr. Endowed Professorship

Ryan Lively was born in 1984. He spent approximately 16 years in Gainesville, FL and attended almost every home football game at The Swamp. He enrolled at Georgia Tech in 2002 as an eager Chemical Engineering student and has been a Yellow Jacket at heart ever since. During his studies at Georgia Tech, Ryan worked on research projects as diverse as ab initio quantum mechanical methods to estimate molecular binding energies, fresh Georgia peach preservation, composite spinneret design, dual-layer hollow fiber membrane spinning, and sorbent-loaded fiber spinning. Ryan introduced a rapid temperature swing adsorption (RTSA) approach for post-combustion CO2 capture, which was successfully demonstrated by adapting knowledge developed in membrane science to design unique nanoscale composite adsorbent/heat exchangers. After his Ph.D. (awarded in 2010), he spent almost 3 years as a post-doctoral research engineer at Algenol Biofuels, where he published 25 papers and filed two U.S. patent applications. His work at Algenol focused on developing energy-efficient liquid and vapor separation systems for downstream biofuel purification. 

He is now the Thomas C. DeLoach Professor in the School of Chemical & Biomolecular Engineering at the Georgia Institute of Technology. His current research seeks to revolutionize fluid separation processes critical to the global energy and carbon infrastructure. He has a specific focus on membrane- and adsorbent-based science and technology to address some of the most difficult chemical separations. His group’s research activities range from fundamental material science and discovery to translational engineering applications focusing on making and testing separation devices. 

Ryan has received a variety of awards for his research efforts including the 2020 Allan P. Colburn Award from AIChE, and the 2022 Curtis W. McGraw Award from ASEE. He is currently an Editor for the Journal of Membrane Science and is the Secretary of the North American Membrane Society. He is the Director of the Center for Understanding & Controlling Accelerated and Gradual Evolution of Materials for Energy (UNCAGE-ME), an Energy Frontier Research Center of the US Department of Energy. He has over 160 publications in the field of separations including articles in Science, Nature and other impactful venues.

ryan.lively@chbe.gatech.edu

(404) 894-8795

Website

  • Research Website
  • Google Scholar

    University, College, and School/Department
    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Fuels & Chemical Processing
  • Hydrogen Production
  • Materials for Energy
  • Pulp Paper Packaging & Tissue
  • Renewable Energy
  • Sustainable Manufacturing
  • Additional Research:
    Biofuels; Carbon Capture; Separations Technology; Membranes; Adsorbents;Polymers; Microporous Materials

    IRI Connections:

    Yongsheng Chen

    Yongsheng Chen

    Yongsheng Chen

    Bonnie W. and Charles W. Moorman IV Professor

    Dr. Chen has an extensive research interests in environmental science and engineering. More specifically, he is a leading researcher in the environmental applications of nanomaterials and their potential fate, transport, transformation, bioaccumulation and toxicity in the environment. His interests in environmental nanomaterials dated back in his graduate research in 1992. He has also been active on algae based bio-renewable energy and sustainable urban development. Dr. Chen has been principle and co-principal investigators for 28 research projects (by June 2010) funded by the National Science Foundation, U.S. Environmental Protection Agency, NASA, Boeing and other organizations. The total funds are $7 million. He has also served as a review member or panel review member in the U.S. National Science Foundation, the U.S. Environmental Protection Agency, the U.S. Department of Energy evaluation committee. He has also been invited to serve as an abroad review expert for the China Changjiang Scholars Program (which is to awarded to the top researchers in China). He has published more than 40 papers and two book chapters in this field.

    Dr. Chen received his Ph.D in Nankai University, China. He joined the Dept. of Civil & Environmental Engineering in May 2009. Till then, he was an Associate Professor Research at the Arizona State University.

    yongsheng.chen@ce.gatech.edu

    (404) 894-3089

    Office Location:
    Daniel Environmental Engineering Laboratory, Room 206

    Website

  • Civil Engineering Profile
  • University, College, and School/Department
    Research Focus Areas:
  • Clean Water
  • FEWS
  • Fuels & Chemical Processing
  • Hydrogen Production
  • Additional Research:
    Biofuels; Separations Technology; Water

    IRI Connections:

    Thomas Fuller

    Thomas Fuller

    Thomas Fuller

    Professor

    Tom Fuller is Professor of Chemical Engineering at the Georgia Tech. Dr. Fuller received a BS from the University of Utah in Chemical Engineering in 1982. Dr. Fuller then served for five years in the U.S. Navy working as a Nuclear Engineer. In 1992 he obtained a Ph.D. from UC, Berkeley also in Chemical Engineering. 

    Subsequently, Dr. Fuller developed advanced lithium batteries while working as a postdoctoral fellow at Lawrence Berkeley National Laboratory. He then moved to United Technologies. He was responsible for technology development, design, assembly, and test of cell stacks for UTC Fuel Cells. 

    His research group at Georgia Tech is focused on durability challenges for electrochemical systems. For the last eight years Dr. Fuller has been a Technical Editor for the Journal of the Electrochemical Society. In 2009 Dr. Fuller was named a Fellow of the Electrochemical Society.

    tom.fuller@chbe.gatech.edu

    (404) 894-2898

    ChBE Profile

  • Website
  • Google Scholar

    University, College, and School/Department
    Research Focus Areas:
  • Energy Generation, Storage, and Distribution
  • Energy Utilization and Conservation
  • Hydrogen Utilization
  • Materials for Energy
  • Additional Research:
    Electric Vehicles; Energy Storage; Hydrogen; Modeling; Materials Failure and Reliability; Energy Conversion; Energy Storage; Batteries; fuel cells

    IRI Connections:

    Carsten Sievers

    Carsten Sievers

    Carsten Sievers

    Professor, School of Chemical and Biomolecular Engineering
    RBI Initiative Lead: Maximizing the Value of Products from Plastics Upcycling

    Sievers’ research interests are in heterogeneous catalysis, reactor design, applied spectroscopy, and characterization and synthesis of solid materials. Combining these interests he seeks to develop processes for the production of fuels and chemicals. His research program combines fundamental and applied research.

    In fundamental studies, a suite of analytical and spectroscopic techniques (e.g. IR, NMR) is used to gain knowledge on structure-reactivity relationships of heterogeneous catalysts. Moreover, surface reactions are studied on a molecular level to identify reaction pathways over different catalysts. Information obtained from these studies provides the foundation for designing innovative catalysts.

    Applied studies focus specific catalytic processes. For these projects, continuously operated flow reactor systems are designed. Different catalysts are tested for reactivity, selectivity and stability and the influence of the operating conditions is investigated. Catalyst deactivation is studied in detail to develop suitable regeneration methods or to avoid deactivation entirely by improved catalyst design. Specific projects include hydrodeoxygenation of pyrolysis oils, selective hydration of polyols, conversion of sugars into lactic acid and ethylene glycol, and selective oxidation of methane.

    An important goal of Sievers’ research is to enable technology for utilization of alternative resources in order to reduce the current dependence of oil. Among these biomass is a particularly promising candidate because it is renewable and can be produced CO2 neutral.

    Sievers has contributed to 80 peer reviewed publications on heterogeneous catalysis in petroleum refining (isobutane/2-butene alkylation, fluid catalytic cracking, hydrotreating), alkane activation, supported ionic liquid as catalysts for fine chemical synthesis, and biomass processing.  He is Director and Past President of the Southeastern Catalysis Society, former Program Chair and Director of the ACS Division of Catalysis Technology & Engineering, former Director of the AIChE Division of Catalysis and Reaction Engineering, and Editor of Applied Catalysis A: General.

    carsten.sievers@chbe.gatech.edu

    404.385.7685

    Office Location:
    ES&T 2218

    ChBE Profile Page

  • Sievers Research Group
  • Google Scholar

    Research Focus Areas:
  • Biobased Materials
  • Biochemicals
  • Biorefining
  • Biotechnology
  • Fuels & Chemical Processing
  • Hydrogen Production
  • Materials for Energy
  • Pulp Paper Packaging & Tissue
  • Sustainable Manufacturing
  • Additional Research:
    Biomass; Biofuels; Catalysis; Advanced Characterization; Gasification; Biorefining; Lignin Upgrading; Catalysis; Energy & Water; Separation Technologies; Chemical Feedstocks; Sugars; Lignin & Hemicellulose

    IRI Connections:

    Matthew McDowell

    Matthew McDowell

    Matthew McDowell

    Associate Professor, Woodruff School of Mechanical Engineering
    Woodruff Faculty Fellow
    IMat Initiative Lead | Materials for Energy Storage
    SEI Lead: Energy Storage

    Matthew McDowell joined Georgia Tech in the fall of 2015 as an assistant professor with a joint appointment in the George W. Woodruff School of Mechanical Engineering and the School of Materials Science and Engineering. Prior to this appointment, he was a postdoctoral scholar in the Division of Chemistry and Chemical Engineering at the California Institute of Technology. McDowell received his Ph.D. in 2013 from the Department of Materials Science and Engineering at Stanford University.

    McDowell’s research group focuses on understanding how materials for energy and electronic devices change and transform during operation, and how these transformations impact properties. The group uses in situ experimental techniques to probe materials transformations under realistic conditions. The fundamental scientific advances made by the group guide the engineering of materials for breakthrough new devices. Current projects in the group are focused on i) electrode materials for alkali ion batteries, ii) materials for solid-state batteries, iii) interfaces in chalcogenide materials for electronics and catalysis, and iv) new methods for creating nanostructured metals.

    mattmcdowell@gatech.edu

    404.894.8341

    Office Location:
    MRDC 4408

    McDowell Lab

  • MSE Profile Page
  • Google Scholar

    Research Focus Areas:
  • Conventional Energy
  • Electronic Materials
  • Hydrogen Production
  • Use & Conservation
  • Additional Research:
    Batteries; Nanostructured Materials; Composites; Fabrication; Energy Storage; Thermal Systems

    IRI Connections:

    Benoit Montreuil

    Benoit Montreuil

    Benoit Montreuil

    Coca-Cola Material Handling & Distribution Chair
    Co-Director, Supply Chain & Logistics Institute
    Professor

    Benoit Montreuil is the Coca-Cola Material Handling & Distribution Chair and Professor in the H. Milton Stewart School of Industrial and Systems Engineering at Georgia Tech. He also serves as Director of the Physical Internet Center and Executive Director of the Supply Chain & Logistics Institute. 

    Dr. Montreuil is leading the International Physical Internet Initiative, engaging academic, industry and government leaders worldwide into research and innovation projects on smart, hyperconnected and sustainable logistics, supply chains, transportation, businesses and regions. 

    His main research interests generically lie in developing concepts, methodologies and technologies for creating, optimizing, transforming and enabling businesses, supply chains and value creation networks to thrive in a fast evolving hyperconnected world. 

    He stands at the crossroads of industrial and systems engineering; operations research; computer sciences; operations, logistics, supply chain, strategic management; and sustainability science. His research builds mostly on a synthesis of optimization modeling and mathematical programming, discrete & agent-based simulation modeling, systems science & design theory. 

    Dr. Montreuil is a world-renowned scientist who has introduced in collaboration with students and colleagues an imposing set of paradigm-challenging leading edge contributions through nearly four decades of research, shared through 250 scientific publications, 250 scientific communications and numerous keynote speeches at international scientific and professional conferences. He has extensive advisory, entrepreneurial and collaborative research experience with industry and government. 

    Through his career, he has received numerous awards, recently including DC Velocity’s Rainmaker of the Year and The Physical Internet Pioneer Award for his outstanding and inspiring vision. 

    From 2000 to 2014, Dr. Montreuil has held the Canada Research Chair in Business Engineering. He is a founding member of the CIRRELT Interuniversity Research Centre on Enterprise Networks, Logistics and Transportation. He is also past president of the College-Industry Council on Material Handling Education and its Liaison to the Board of Governors of MHI, the North American industry association of material handling, logistics and supply chain solutions and technology providers. 

    Dr. Montreuil graduated in 1978 from the Université du Québec à Trois-Rivières (UQTR). He earned a master’s and a Ph.D. in Industrial Engineering from Georgia Tech in 1980 and 1982 respectively. After serving on the industrial engineering faculty of UQTR and Purdue University, from 1988 to 2014, he was a Professor of operations and decisions systems in the faculty of Business Administration at Université Laval in Quebec City, Canada.

    benoit.montreuil@isye.gatech.edu

    Departmental Bio

    Research Focus Areas:
  • Hydrogen
  • Hydrogen Storage & Transport
  • Additional Research:
    Hydrogen Transport/Storage

    IRI Connections:

    Benjamin Emerson

    Benjamin Emerson

    Benjamin Emerson

    Senior Research Engineer

    Ben Emerson completed his Ph. D. in Aerospace Engineering from Georgia Tech in August, 2013. Since then, Ben has worked as a Research Engineer at the Ben T. Zinn Combustion Lab at Georgia Tech. Ben’s research portfolio includes projects on combustion instabilities, alternative fuels, and combustion system R&D with a core focus and motivation of cleaner combustion. Ben’s research primarily consists of three core competencies, which are experimental combustion system development, combustor diagnostics, and combustion theory and modeling. Ben’s combustion system development work spans a wide variety of applications, from small lab-scale burners to combustor rigs that test full-scale gas turbine combustor hardware. His combustor diagnostics work encompasses the state of the art optical diagnostic techniques for reacting flow field measurements and imaging, and aims to implement those techniques in both laboratory-scale and large-scale rig tests. Finally, Ben’s combustion theory and modeling work is geared towards analysis of experimental datasets, development of reduced-order engineering tools, and the development of a suite of hydrodynamic stability analysis tools. Together, these core competencies form the pillars of Ben’s research, which facilitates the design of cleaner-burning combustion systems.

    bemerson@gatech.edu

    404-385-0413

    Office Location:
    CNES, 216

    Departmental Bio

    Research Focus Areas:
  • Combustion
  • Energy
  • Hydrogen
  • Hydrogen Utilization
  • Additional Research:
    Hydrogen Utilization, Hydrogen combustion in gas turbines, combustion instabilities, alternative fuels, cleaner combustion system R&D, experimental combustion system development, combustor diagnostics, and combustion theory and modeling

    IRI Connections:

    Jinho Park

    Jinho Park

    Jinho Park

    Research Scientist II

    jinho.park@gtri.gatech.edu

    Research Focus Areas:
  • Energy Storage
  • Hydrogen
  • Hydrogen Production
  • Hydrogen Utilization
  • Materials for Energy
  • Additional Research:
    Hydrogen Generation, Hydrogen Utilization, Electrochemical production of green hydrogen, Design/synthesis of high-performance electrocatalysts for water electrolysis and PEMFCs, design/synthesis/characterization of functional materials for energy storage systems, energy conversion systems, fuel cells, water electrolyzers, ammonia cracking, multifunction sensors

    IRI Connections:
    IRI And Role