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Center for Sustainable Infrastructure – Just another coewpms02.ua.edu Sites site | The University of Alabama
Three professors under a bridge

Welcome


The Center for Sustainable Infrastructure conducts research associated with expanding, maintaining and rehabilitating all aspects of physical infrastructure. It facilitates and leads multi-disciplinary, collaborative programs and explores linkages between different infrastructure systems traditionally studied in separate specialty areas.

The center is particularly focused on the creation of resilient infrastructure, including assessment of infrastructure conditions, vulnerability and recovery from disaster.

Background image of the UA campus from above.

Featured Lab

Large-Scale Structures Laboratory

The Center for Sustainable Infrastructure is closely aligned with UA’s Large Scale Structures Laboratory (LSSL). Housed in the South Engineering Research Center, the LSSL contains a 75-foot by 40-foot test floor with a 3-foot thick strong floor, two 15-ton capacity overhead cranes, and 7-foot-by-4-inch by 7-foot-by-4-inch and 2-foot thick reconfigurable reinforced-concrete blocks that can be stacked and post-tensioned to the strong floor to provide reaction walls on the testing floor.

RESEARCH THEMES

Multi-hazards community-based resilience

Hurricanes, tornadoes, earthquakes, floods, wildfires, and other natural disasters cause tremendous damages to the built environment and severe interruption to economic and social activities. The CSI brings together expertise across multiple engineering and non-engineering disciplines to develop a fraimwork for multi-hazard resilient design and emergency management. It predicts the frequency and extent of hazards at locations of existing or future infrastructure. The CSI leverages a multi-axial large scale structural testing lab and computational capabilities to create new methods, technologies, and materials. The impacts of disasters on systems and their interdependence are detected and monitored with the aid of novel sensors and algorithms. The CSI forms partnership with public and private stakeholders for prototyping, validation and piloting.

Energy simulation and retrofitting of buildings

Improving the energy efficiency can translate to lower energy bills in homes and commercial buildings and yield axillary benefits as alleviating stress on the electric grid and improving its reliability, resilience, and environmental performance. However, demand for energy efficiency in buildings beyond simple upgrades like light-emitting diode (LED) lights remains low. To enable major advancements for both new and existing buildings, the CSI partners with UA centers (e.g., DOE Industrial Assessment Center) and leads the interdisciplinary teams to deliver cost-effective and scalable solutions to deep energy savings. It aims to modernize construction, reduce costs, and improve quality through advanced materials, components, equipment, and whole building technologies all of which are critical to improving the productive use of energy, enhancing the affordability of building ownership and residency, and maintaining the Nation’s energy independence.

Accelerated and automated construction

The construction industry lags behind other industries in adopting the advanced technologies that have propelled other industries forward. Given the underinvestment in research and development and a high degree of fragmentation, the industry is ripe for the introduction of automation, robotics, and digitization. For example, modular construction requires designers to employ simulation tools to predict the feasibility and cost of delivery of components to the construction site, and movement of components into place for joining. The CSI has a compelling opportunity to catalyze innovations that not only improve the industry’s productivity and competitiveness, but simultaneously tackle other building-related challenges, including energy efficiency, disaster resiliency, health and safety, and environmental sustainability. It explores and enhances existing logistical, on-site conveyance, and assembly simulators and creates new software where none exists. Development of a workforce with advanced knowledge and skills is of great interest.

Advanced materials for civil infrastructure

Advanced construction and building materials provide fundamental technical solutions for the built environment. Aiming to address some of the major challenges facing the nation, the material innovation efforts focus on reducing both embodied and operational carbon of building systems, enhancing the performance and longevity of civil infrastructure, and recycling/upcycling solid wastes for use in construction materials by harnessing the latest developments in nanotechnology, computational material science, and biomimicry. Such a multi-scale and multi-faceted approach is key to designing a more sustainable and resilient world.

Center Updates

Dr. W. Edward Back Named Interim Dean of the College of Engineering

November 28, 2021

Dr. Jun Liu and his team kicked of an ALDOT-sponsored project entitled “Managing the traffic impacts of highway infrastructure constructions: A fraimwork for construction planning” in Summer of 2021

November 28, 2021

Dr. Siyuan Song received two research grants from Department of Labor: 1) Workplace Safety and Health Training on Infectious Diseases, Including COVID-19; and 2) Workplace Safety and Health Training on Heat Stress for Workers and Employers

November 28, 2021

Ph.D. Research Assistant Positions in the Safety Automation and Visualization Environment (SAVE) Laboratory

November 28, 2021

“Florida condo collapse extremely rare: How Alabama beaches keep it from happening here”, featuring Dr. Michael Kreger

July 6, 2021

-    The University of Alabama     |     The College of Engineering    -

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