Jian Luo

Jian Luo

Jian Luo

Professor
BBISS Lead: Coastal Urban Flooding

Dr. Jian Luo completed his undergraduate and M.S. studies at Tsinghua University, Beijing, where he received a B.Sc.(Eng.) and a M.S. degree in Environmental Engineering in 1998 and 2000, respectively. He completed his Ph.D. in 2006 in Department of Civil and Environmental Engineering at Stanford University, California. The research Dr. Luo is conducting involves field, theoretical, and computational investigations of flow and reactive transport in subsurface; development and application of geostatistical methods for the spatial and temporal analysis of hydrogeologic and biochemistry data; development of computational algorithms and programs to simulate subsurface flow and reactive transport, and to assess the associated uncertainty; inverse modeling to estimate flow and transport parameters under uncertainty; and use of such computational methods and models to assess subsurface contamination, and to aid the optimal design of groundwater remediation operations.

jian.luo@ce.gatech.edu

(404) 385-6390

Departmental Bio

  • BBISS Initiative Lead Project - Coastal Urban Flooding in a Changing Climate
  • Research Focus Areas:
  • Energy Generation, Storage, and Distribution
  • Additional Research:
    Geosystems; Water

    IRI Connections:

    Xing Xie

    Xing Xie

    Xing Xie

    Carlton S. Wilder Junior Professor, School of Civil and Environmental Engineering
    Assistant Professor, School of Civil and Environmental Engineering

     Xing Xie is the Carlton S. Wilder Assistant Professor in the School of Civil and Environmental Engineering at Georgia Institute of Technology. Prior to joining Georgia Tech, he was a post-doctoral scholar at California Institute of Technology. He received his B.S. (2006) and M.S. (2008) degrees in Environmental Science & Engineering from Tsinghua University, and a second M.S. degree (2012) in Materials Science & Engineering and a Ph.D. degree (2014) in Civil & Environmental Engineering from Stanford University. His research focuses on the applications of innovative materials for sustainable and reliable water and energy. He has worked on many projects related to water treatment and reuse, microbial detection and quantification, energy and resource recovery, energy storage, etc. He has published more than 60 peer-reviewed articles with more than 6,000 citations

    xing.xie@ce.gatech.edu

    404.894.9723

    Office Location:
    ES&T 3236

    CEE Profile Page

  • Personal Research Site
  • Google Scholar

    Research Focus Areas:
  • Miniaturization & Integration
  • Nanomaterials
  • Social & Environmental Impacts
  • Additional Research:
    Water & wastewater treatment; Energy & resources recovery; Energy storage; Salinity energy & desalination; self-sustained sanitation; Oil-water separation; Environmental monitoring

    IRI Connections:

    Susan Burns

    Susan Burns

    Susan Burns

    Professor, School of Civil and Environmental Engineering
    Associate Chair for Finance & Administration; School of Civil & Environmental Engineering

    Susan E. Burns, Ph.D., P.E., F.ASCE is a professor in the School of Civil and Environmental Engineering and associate chair for administration and finance at the Georgia Institute of Technology in Atlanta, Georgia, USA. Burns earned a B.C.E. in civil engineering (1990), an M.S. in civil engineering (1996), an M.S. in environmental engineering (1996), and Ph.D. in civil engineering (1997), all from Georgia Tech. After completing her Ph.D., Professor Burns joined the faculty at the University of Virginia where she served for over seven years. In 2004, she joined the faculty at Georgia Tech as an associate professor. 

    Burns' research focuses on applications in geoenvironmental engineering, with particular emphasis on the productive reuse of waste materials including dredged sediments, fly ash, and biomass fly ash, treatment of highway stormwater runoff using engineered materials, erosion control of soils on highway rights-of-way, interfacial behavior of organic- and inorganic-coated soils, the transport and behavior of microbubbles in otherwise saturated porous media, and the hydraulic conductivity and consolidation properties of fine-grained soils using seismic piezocone penetration testing (SPCPT). Funding for her research group has come from federal, state, and industry sources, including a CAREER Award from the National Science Foundation in 2000. Burns has also received major funding from the US Department of Energy, the US Army Corps of Engineers, the US Department of Education, the Virginia Transportation Research Council, the Georgia Department of Transportation, Southern Company, and other industrial sources. 

    Burns is a recipient of the National Science Foundation CAREER award, the Arthur Casagrande Professional Development Award (ASCE), the Edmund Friedman Young Engineer Award (ASCE), the Alumni Board of Trustees Teaching Award (University of Virginia), and the David Harrison III Award for Undergraduate Advising (University of Virginia). She was awarded a University Teaching Fellowship (University of Virginia), and was named a Class of 1969 Teaching Scholar (Georgia Tech) and a Class of 1969 Teaching Fellow (Georgia Tech). Most recently, she was selected as the recipient of the 2012 CEE appreciation award (CEE, Georgia Tech) and a 2012 Class of 1934 Teaching Effectiveness Award. She was elected Fellow of the American Society of Civil Engineers in 2013. 

    Burns has served as the president of the United States Universities Council on Geotechnical Education and Research (USUCGER), an organization of approximately 400 professors of geotechnical engineering in the US and abroad (www.usucger.org). She is a past member of the National Research Council's (NRC) Standing Committee on Geological and Geotechnical Engineering, and a past member of the NRC's Committee on Assessment of the Performance of Engineered Waste Containment Barriers. She has chaired the American Society of Civil Engineers/GeoInstitute Geoenvironmental Engineering Committee, and is a past member of the GeoInstitute Awards Committee, and the Transportation Research Board's Committee on Physicochemical Phenomena in Soils. Additionally, she served as an editorial board member for ASCE's Journal of Geotechnical and Geoenvironmental Engineering. She served on the organizing committee for the International Symposium on Deformational Characteristics of Geomaterials (IS Atlanta 2008) and the Fifth International Conference on Scour and Erosion, and served as the editor for proceedings at both conferences. 

    At Georgia Tech, Burns has chaired the School of Civil and Environmental Engineering's graduate committee, served on the School's statutory advisory committee, served as the graduate coordinator for the Geosystems Group, and served as the group leader for the geosystems group in the School of Civil and Environmental Engineering. She was the School's associate chair for undergraduate programs for five years before taking over as associate chair for finance and administration in 2018. At the Institute level, she has served as a member of the Academic Senate and General Faculty Assembly and the Student Academic and Financial Affairs Committee.

    susan.burns@ce.gatech.edu

    404.894.2285

    Website

    Google Scholar

    Research Focus Areas:
  • Energy Generation, Storage, and Distribution
  • Materials and Nanotechnology
  • Additional Research:
    Geosystems; Geomaterials; Materials Design; Nanocomposites; Transport of Microbubbles

    IRI Connections:

    J. David Frost

    J. David Frost

    James Frost

    Elizabeth and Bill Higginbotham Professor, School of Civil and Environmental Engineering
    Group Coordinator, Geosystems Engineering Group

    James David Frost is the Elizabeth and Bill Higginbotham Professor of civil engineering. He received B.A.I and B.A. degrees in civil engineering and mathematics, respectively, from Trinity College, Dublin, Ireland in 1980 and M.S. and Ph.D. degrees in civil engineering in 1986 and 1989 from Purdue University. Prior to serving as a member of the faculty at Purdue University and Georgia Tech, he worked in industry in Ireland and Canada on a range of natural resource related projects ranging from tailings impoundments to artificial sand islands in the Arctic for oil exploration. At Georgia Tech, where he has been for almost 20 years, he has served as head of the Geosystems Engineering Group and as founding director of the Georgia Tech Regional Engineering Program and subsequently the Georgia Tech Savannah campus.

    david.frost@ce.gatech.edu

    404.894.2280

    Office Location:
    Mason 2285

    Research Website

  • CEE Profile Page
  • Google Scholar

    Research Focus Areas:
  • Materials and Nanotechnology
  • Additional Research:
    Micro and nanomechanics, geomaterials, composites, sustainable communities

    IRI Connections:

    Laurence Jacobs

    Laurence Jacobs

    Laurence Jacobs

    Professor, School of Civil and Environmental Engineering and School of Mechanical Engineering
    Associate Dean for Academic Affairs, College of Engineering

    Laurence J. Jacobs is associate dean for academic affairs in the College of Engineering at the Georgia Institute of Technology, professor of civil and environmental engineering, and professor of mechanical engineering. Jacobs received his Ph.D. in engineering mechanics from Columbia University and joined the faculty of Georgia Tech in 1988. Prior to receiving his Ph.D., he worked for two years in the aerospace industry and for one year as a structural engineer.

    Professor Jacobs’ research focuses on the development of quantitative methodologies for the nondestructive evaluation and life prediction of structural materials. This includes the application of nonlinear ultrasound for the characterization of fatigue, creep, stress-corrosion, thermal embrittlement and radiation damage in metals. His work in cement-based materials includes the application of linear and nonlinear ultrasonic techniques to quantify microstructure and progressive micro-cracking in concrete.

    Jacobs’ publications have been cited more than 4900 times with an h-index of 39 (Google Scholar), 31 (Scopus) or 28 (Web of Science) and he is a Fellow of the ASME. Professor Jacobs’ research has been funded by DOE, NSF, ONR, AFOSR, DARPA, NASA, US DOT, Georgia DOT, Exxon-Mobil, EPRI, Sandia National Lab and GE. He has been the PI or co-PI on over $8M worth of contracts since 1990. Jacobs has graduated 16 Ph.D. students (5 women and 2 African Americans) and 65 M.S. thesis students.

    laurence.jacobs@coe.gatech.edu

    404.894.2344

    Office Location:
    Mason 2132A

    CEE Profile Page

    Google Scholar

    Research Focus Areas:
  • Materials and Nanotechnology
  • Additional Research:
    Acoustics and dynamics, structural health monitoring, structural materials

    IRI Connections:

    Chloé Arson

    Chloé Arson

    Chloe Arson

    Adjunct Professor

    Chloé Arson is a professor in the School of Civil and Environmental Engineering (CEE) at Cornell University and an adjunct faculty in the Schools of CEE and Earth and Atmospheric Sciences at the Georgia Institute of Technology (Georgia Tech). She earned her Ph.D. at Ecole Nationale des Ponts et Chaussées (France) in 2009. She was an assistant professor at Texas A&M University from 2009 to 2012. Then, she worked as an assistant professor (2012-2016), associate professor (2016-2022) and professor (2022-2023) in the Georgia Tech School of CEE. Arson joined the faculty at Cornell University in Summer 2023.

    chloe.arson@ce.gatech.edu

    404.385.0143

    CEE Profile Page

    Research Focus Areas:
  • Computational Materials Science
  • Geosystems
  • Additional Research:
    Numerical modeling, geomaterials, bio-inspired materials

    IRI Connections:

    Donald White

    Donald White

    Donald White

    Professor, School of Civil and Environmental Engineering

    Don White is a professor in the School of Civil and Environmental Engineering (CEE). He has been a member of the CEE faculty at Georgia Tech since 1997. Prior to joining Georgia Tech, White served on the faculty at the Purdue University School of Civil Engineering from 1987 to 1996. He received his doctorate in Structural Engineering from Cornell University in 1988, and is an alumnus of North Carolina State University. Prior to graduate study, White worked as a structural engineer in Raleigh, NC.

    White’s research covers a broad area of design and behavior of steel and composite steel-concrete structures as well as computational mechanics, methods of nonlinear analysis and applications to design. White is a member of the AISC Technical Committees 4, Member Design, and 10, Loads, Analysis and Stability, the AISI Bridge Design Advisory Group, the AISC Specification Committee, and several AASHTO/NSBA Steel Bridge Collaboration Task Groups. He is past Chair of the SSRC Task Group 29, Second-Order Inelastic Analysis of Frames and currently serves on the Executive Committee of the SSRC.

    White has served as a major contributor to the steel design and structural analysis sections of the AASHTO LRFD Bridge Design Specifications and the ANSI/AISC Specification for Structural Steel Build­ings during the past 20 years. He was a lead author on the 1997 ASCE publication Effective Length and Notional Load Approaches for Assessing Frame Stability: Implications for American Steel Design, which was a precursor of the development of the AISC Direct analysis Method of design, referred to as the DM. Furthermore, White was a major participant ad hoc task group efforts leading to the development of the DM, which is the preferred method of stability design in the AISC Specification for Design of Steel Building Structures. Subsequent to these developments, the Metal Building Manufacturers Association (MBMA) provided White the opportunity to extend a number of these developments to updated procedures for design of frames using web-tapered members, which is captured within the AISC/MBMA Design Guide 25. White received the 2005 Special Achievement Award and the 2009 T.R. Higgins lectureship award from AISC for his research on design criteria for steel and composite steel-concrete members in bridge and building construction. He received the 2006 Shortridge Hardesty Award from ASCE for his research on advanced frame stability concepts and practical design formulations. For efforts leading to the comprehensive update to the 2005 AASHTO LRFD provisions for steel I- and box-girder bridge design, and unification of AASHTO LRFD provisions for straight and curved girder bridge design, White received the 2007 Richard S. Fountain Bridge Task Force Award and, with M. Grubb and W. Wright, the 2006 Richardson Medal from the Engineers’ Society of Western Pennsylvania.

    White has conducted research on a wide range of topics relating to stability analysis and design and construction engineering of steel bridge structures. This includes work on construction simulation of curved and skewed steel bridges, investigation of the behavior of thin-web girders, and stability of components and structural systems during construction and in their final constructed condition. He was one of several researchers privileged to be involved closely with curved steel bridge experimental testing at the FHWA Turner Fairbank Highway Research Center from 1997 through 2005. White was P.I. and lead author of the NCHRP Report 725, Guidelines for Analytical Methods and Construction Engineering of Curved and Skewed Steel Girder Bridges. This work contributed additional substantive advances to the state-of-the-art in the engineering of curved and skewed steel girder bridge structures. White is currently P.I. on a multi-year FHWA-sponsored effort with the goal of modernizing the AASHTO LRFD provisions pertaining to all types of noncomposite box-section members including truss members, edge girders in cable-stayed spans, arch ribs, arch ties, and tower legs.

    don.white@ce.gatech.edu

    404.894.5839

    Office Location:
    Mason 5139B

    CEE Profile Page

    Google Scholar

    Research Focus Areas:
  • Computational Materials Science
  • Additional Research:
    Computer-Aided Engineering; computational mechanics; Structural Materials

    IRI Connections:

    Phanish Suryanarayana

    Phanish Suryanarayana

    Phanish Suryanarayana

    Associate Professor, School of Civil and Environmental Engineering

    Phanish Suryanarayana joined the School of Civil and Environmental Engineering at the Georgia Institute of Technology in August 2011. He received his B.Tech. from Indian Institute of Technology, Madras, India in 2005. He obtained his M.S. in Aeronautics from California Institute of Technology in 2006. Subsequently, he received his Ph.D. in Aeronautics from California Institute of Technology in 2011 for his thesis titled "Coarse-graining Kohn-Sham Density Functional Theory". His research interests are in the areas of multiscale modeling, ab-initio calculations, density functional theory, continuum mechanics and smart materials. Overall, he is interested in developing efficient numerical methods for solving problems arising in a variety of fields. On a personal level, Dr. Suryanarayana is a sports enthusiast. He plays badminton, cricket, waterpolo, and ultimate frisbee. He also is an avid gamer (PC) and enjoys playing bridge and other board game

    phanish.suryanarayana@ce.gatech.edu

    404.894.2773

    Office Location:
    Mason 5139A

    CEE Profile Page

  • Material Physics & Mechanics Group
  • Google Scholar

    Research Focus Areas:
  • Computational Materials Science
  • Use & Conservation
  • Additional Research:
    Computational mechanics; Multiscale Modeling; Metamaterials; Electronics

    IRI Connections:

    Joe F. Bozeman III

    Joe F. Bozeman III

    Joe Bozeman

    Assistant Professor
    SEI Lead: Health Equity and Energy Transitions

    joe.bozeman@ce.gatech.edu

    Departmental Bio

    Research Focus Areas:
  • Energy & Water
  • Energy Utilization and Conservation
  • FEWS
  • Food-Energy-Water-Transportation-Systems (FEWTS)
  • Infrastructure Ecology
  • Policy & Economics
  • Additional Research:
    industrial ecology; climate change adaptation and mitigation strategies; sociodemographic impacts of the food-energy-water nexus; equity applications in energy and environmental systems; urban carbon management strategies; life cycle assessment; scenario analysis; and survey administration; addressing the complex and ‘wicked’ challenges of our time

    IRI Connections:

    Ameet Pinto

    Ameet Pinto

    Ameet Pinto

    Associate Co-Director for Interdisciplinary Research
    Carlton S. Wilder Associate Professor

    Dr. Ameet Pinto is an Environmental Engineer and Carlton S. Wilder Associate Professor in Civil and Environmental Engineering at Georgia Institute of Technology (Georgia Tech). Ameet is a Chemical Engineer from the Institute of Chemical Technology (University of Mumbai) with post-graduate degrees in Environmental Engineering from the University of Alaska (2005) and Virginia Tech, USA (2009). Before joining Georgia Tech in 2021, he was an Assistant Professor at Northeastern University (2016-2021) and Lecturer/Senior Lecturer (2012-2015) at the University of Glasgow. Ameet’s research focuses on microbial ecosystems at the interface of infrastructure and public/environmental health with a focus on the engineered water cycle. The overall research goal is to characterize and manipulate microbial communities to (1) protect and improve public and environmental health and (2) improve functional reliability and economic feasibility of water infrastructure. To do this, his research group develops and applies state-of-the-art microbial molecular and sensing tools and modelling approaches to monitor and manage the microbiology of the engineered water cycle. Ameet also serves as the Editor for Water Research (the premier journal for the engineering, science, and technology for water quality management) and as the Secretary of the Microbial Ecology and Water Engineering (MEWE) Specialist Group of the International Water Association.

    ameet.pinto@ce.gatech.edu

    Pinto Lab Website

    Google Scholar

    Additional Research:
    Drinking waterWastewaterMicrobiomeMicrobial ecologyComputational biologyPublic health

    IRI Connections: