Kate Simonen joins the NORI podcast to share the ins and outs of life cycle assessments, or LCAs. Kate Simonen is a carbon accounting expert and professor in the Department of Architecture at the University of Washington. As a licensed architect and structural engineer, she has an extensive background in high-performance building systems, seismic design and retrofitting, and net-zero energy construction. Kate’s research is focused on environmental life cycle assessment and innovative construction materials and methods. She is also the founding…
Research Theme: Climate & Energy
Scholarship on climate change mitigation and adaptation, as well as energy efficiency
Laure Heland
Laure Heland is Affiliate Associate Professor in the Department of Landscape Architecture. She has been teaching as an Associate Professor at the National School of Architecture of Paris La Villette (France) since 2007. As research faculty she participated in several national and European public funded research programs on participatory process for sustainable design and the assessment of environmental and climate change policies at regional, local and building scales.
Trained in Ecology, Urban Design and Planning, she developed her professional experience in environmental consulting and training for professionals, local authorities and regional governments. She earned her PhD in 2008, studying the neighborhood as a place for emergence, experimentation and appropriation of sustainable development, through bottom-up ecological practices and community-led participatory design.
Laure’s current research focuses on the Pacific Northwest experience and leadership on stormwater management at different scales, and more generally the social, ecological and economical consequences of implementing ecological infrastructure in dense urban environments. She is analyzing their impact on local communities, on the praxis of design professionals, and the management of ecological systems over the long term through the collaboration of various actors: local communities, NGOs, public and private professionals and agencies.
She also explores community-led ecological design projects and participatory process in various socio-cultural contexts. She is teaching a fall seminar on Perceptions of Nature in dense urban environments and she collaborated with the past two McKinley BE Studios on
interdisciplinary teaching pedagogy.
Monica Huang
Monica Huang is a research engineer for the Carbon Leadership Forum at the University of Washington with expertise in environmental life cycle assessment (LCA). Recent research topics include the environmental impact of housing, optimizing tall wood structures, and developing data on the environmental impact of earthquake damage. She was also the lead author for a guide on the use of LCA in design and construction practice. Past research experience includes diverse topics such as astronomy, electronic waste, and sea level rise. As a graduate student, she developed the Port of Seattle’s first study on the impacts of sea level rise on seaport structures.
Hyun Woo “Chris” Lee
Hyun Woo “Chris” Lee is a PD Koon Endowed Associate Professor in the Department of Construction Management (CM). Prior to joining the CM Department in January 2016, he spent 3.5 years as an Assistant Professor at Oregon State University, and 7 years in the U.S. and Korean construction industries as field engineer, project engineer, and estimator. He received his B.S. in Architectural Engineering from Seoul National University in 1999, and his M.S. and PhD in Civil and Environmental Engineering from the University of California, Berkeley in 2004 and 2012, respectively.
Prof. Lee’s research interests center on developing models to identify, quantify, and mitigate various risk factors inherent in the development of energy-efficient commercial buildings and sustainable infrastructures. His research is currently focused on 3 types of risk factors: (1) financial risks associated with sustainability and energy-efficiency investments, (2) worker safety risks associated with sustainable design features, and (3) design-related risks due to project complexity.
Since 2012, Prof. Lee has led or been involved in 20 research projects (a combined value of over $1.5M), funded by various organizations including Washington State, Google, the US Department of Energy (DOE), the Oregon Department of Transportation (ODOT), and the National Institute of Occupational Safety and Health (NIOSH). Currently, he has 5 on-going projects with a combined value of over $400,000.
As of October 2020, Prof. Lee has published 33 peer-reviewed journal papers in top-quality journals such as Applied Energy, Journal of Computing in Civil Engineering, Automation in Construction, and Journal of Construction Engineering and Management. In addition, he has co-authored 24 peer-reviewed conference papers and 14 technical reports.
Marina Alberti
Marina Alberti is Professor of Urban and Environmental Planning in the Department of Urban Design and Planning at the University of Washington. She directs the Urban Ecology Research Laboratory and lead the International Research Network on Urban Eco-Evolutionary Dynamics. She teaches courses in Urban Science, Urban Ecology, Environmental Planning, Research Design, Geographic Information Systems, and Group Dynamic and Conflict resolution. Alberti’s research interests are in urban ecology and evolution. Her studies focus on the interactions between urban patterns and ecosystem function, urban signatures of evolutionary change, and the properties of cities that enhance their resilience and transformative capacity. She also leads research on urban ecological modeling, scenario planning, and urban ecological metrics to monitor progress and inform policy-making and planning. In her book Cities That Think like Planets (UW Press 2016), Alberti advances a science of cities that work on a planetary scale and link unpredictable dynamics to the potential for socio-ecological innovation.
Andy Dannenberg
Andy Dannenberg holds joint appointments in the Department of Environmental and Occupational Health Sciences and in the Department of Urban Design and Planning where he teaches courses on healthy community design and on health impact assessment. He has a particular interest in the use of health impact assessments as tools to inform community planners about the health consequences of their decisions. For the past decade, Dannenberg’s research and teaching have focused on examining the health aspects of community design, including land use, transportation, urban planning, and other issues related to the built environment.
Before coming to Seattle, Dannenberg served as Team Leader of the Healthy Community Design Initiative in the National Center for Environmental Health at the Centers for Disease Control and Prevention (CDC) in Atlanta. He has served as Director of CDC’s Division of Applied Public Health Training, as Preventive Medicine Residency Director and as an injury prevention epidemiologist on the faculty at the Johns Hopkins University School of Public Health in Baltimore, and as a cardiovascular epidemiologist at the National Institutes of Health in Bethesda, Maryland.
Dannenberg completed a residency in family practice at the Medical University of South Carolina and was board certified in Family Practice (1982-1989). He is board certified in Preventive Medicine (1986-present).
Kate Simonen
Kathrina (Kate) Simonen is a Professor of Architecture at the University of Washington, founder and board chair of the nonprofit Carbon Leadership Forum and leader of the Life Cycle Lab. Licensed as an architect and structural engineer, she connects significant professional experience in high performance building design and technical expertise in environmental life cycle assessment working to accelerate the transformation of the building sector to radically reduce the greenhouse gas emissions attributed to materials (also known as embodied carbon) used in buildings and infrastructure.
She is a Fellow of the American Institute of Architects, an honorary fellow of the UK’s Institution of Structural Engineers and was named Engineering News Record Top 25 Newsmaker in 2020 for her impact rallying industry to reduce embodied carbon. Taking an entrepreneurial approach to academic work she helped launch two successful nonprofits, CLF and Building Transparency; spurred the formation of two embodied carbon commitment programs, SE2050 and MEP 2040; and develops and sustains networks of individuals and organizations working together to harmonize and optimize embodied carbon actions.
UW’s Life Cycle Lab is focused on supporting the next generation of researchers and pursuing critical research to advance life cycle assessment (LCA) data, methods and approaches. The research that we pursue aims to fill challenging knowledge gaps in order to inform impactful policies that support the integration of life cycle thinking, LCA findings and decarbonization strategies to implement into practice today.
Chris Meek
Christopher Meek is Professor of Architecture at the University of Washington and Director of the Center for Integrated Design at the University’s College of Built Environments. Professor Meek’s areas of research include building energy performance for new construction and retrofits, daylighting, visual comfort, electric lighting, and climate responsive design. His work bridges practice, research, and education with collaboration between practitioners, faculty, and students. Under his leadership, the Center advances its mission through interconnected research, technical assistance, and educational programs that create impact in three primary areas: (1) influential new construction and renovation projects that achieve exceptional energy performance targets and serve as a model for future buildings; (2) the development and advancement of tools, methods, and technologies to accelerate energy efficient buildings through peer-reviewed publications and competitive grant awards, and; (3) the delivery of educational programs and experiences that form the next generation of leaders in the building industry.
Over the past decade, Professor Meek has consulted on over 20 million square feet of commercial and institutional buildings including working, learning, and healing environments including the net-zero energy Bullitt Center in Seattle. His research has been funded by the Northwest Energy Efficiency Alliance, the National Science Foundation, the US Department of Energy, the Illuminating Engineering Society, the Bullitt Foundation, and the American Institute of Architects. Professor Meek teaches graduate and undergraduate level courses on building design and technology at the UW Department of Architecture.
Professor Meek is co-author of Daylighting Design in the Pacific Northwest and Daylighting and Integrated Lighting Design. He was elevated to Fellowship in the American Institute of Architects in 2020.
Mehlika Inanici
Mehlika Inanici, Ph.D. is a Professor and the former director of the Design technology track of the Master of Science in Architecture program at the University of Washington, Department of Architecture.
The focus of her research is computational lighting design and analysis. The underlying presumption in her research and teaching is that analytical approaches employed throughout the design processes help architects envision the performance of their designs, accelerate and improve design decisions, and reduce the uncertainty of the outcome. A large body of her research centers on developing and utilizing computer-based (day)lighting analysis techniques and metrics that can facilitate occupant comfort, satisfaction, health, and productivity improvements, in conjunction with significant energy savings.
Inanici has authored or co-authored highly influential papers on the use of high dynamic range (HDR) photography to measure and evaluate existing environments and to conduct psychophysical studies on visual comfort and preference. Her work on lighting measurements with HDR photography was selected as one of the “25 classic papers” in the 50-year history of the Journal of Lighting Research and Technology (2018) among the 2048 papers published between 1969 to 2018. Some of her papers are on the most cited list in Leukos (the journal of Illuminating Engineering Society) and Lighting Research and Technology.
She developed Lark Multispectral Lighting tool in collaboration with ZGF Architects LLC. Lark is an open-source software to simulate the non-visual effects of light that entrains the human circadian system. She also co-developed hdrscope in collaboration with Viswanathan Kumaragurubaran.
Her research has been funded by the US Department of Energy, the Pacific Northwest National Laboratory, the University of Washington Royalty Research Fund, UW Built Environments Innovations Collaborative Grant, and the Nuckolls Funding for Lighting Education.
Prof. Inanici’s teaching focuses on graduate-level courses on building performance simulation (Arch 524 Design Technology V, Arch 582 Computational Lighting Research, and 598 Performance-Driven Design) and research methodologies. She supervises students from the Master of Architecture, Master of Science in Architecture, and the Ph.D. program in Built Environments.
Inanici has received her Ph.D. degree from the University of Michigan. She has Master of Science degrees both in Architecture (University of Michigan) and Building Science (METU), and a Bachelor of Architecture degree (METU). Previously, she worked at the Lawrence Berkeley National Laboratory in Berkeley California. Dr. Inanici is a member of the Illuminating Engineering Society, the International Commission on Illumination, and the International Building Performance Simulation Association.
Dean Heerwagen
Heerwagen’s abiding intellectual and professional interest is the identification of how buildings can be created to serve the occupants who will live and work within them. Thus, the principal goal of his work has been to characterize, first, the range and natures of activities which occupants wish or need to accomplish in buildings and, second, the types of services which should be present in buildings (i.e., to enable occupants to perform these activities). These services include, generally, means for ensuring the health and safety of building occupants, as well as means for supporting other human physical, physiological, and perceptual psychological requirements.
Throughout his teaching and research he has sought to acquire and communicate knowledge about how to design and construct buildings so that occupants have settings that satisfy these requirements. In his teaching, research, and writing he has concentrated on how the presences of heat, light, sound, and good air quality in buildings can be controlled so that occupants can be assured comfortable environments which operate efficiently. In his work he seeks to examine and describe how to create buildings whose internal environments are well-conditioned (i.e., to suit occupants’ needs and wishes). Basic examples of what he addresses include how to establish buildings that are thermally comfortable, well-daylighted, suitably quiet (while also enabling good communication by speech and music), and adequately ventilated. Necessarily, achievement of these performance attributes can rely, for instance, on various active control systems (e.g., mechanical and electrical systems) or on passive devices.