The mission of the SE 2050 Commitment is to support the SE 2050 Challenge and transform the practice of structural engineering in a way that is holistic, firm-wide, project based, and data-driven. By prioritizing reduction of embodied carbon, participating firms can more easily work toward net zero embodied carbon structural systems by 2050.
On December 16, 2019 the Board of Governors of SEI unanimously voted to support the development of the SE 2050 Commitment Program:
“We, the Structural Engineering Institute (SEI) of the American Society of Civil Engineers (ASCE), support the vision and ambition of the SE 2050 Challenge. We, as a leading structural engineering organization in the United States, recognize the need for coordinated action across our profession to achieve the globally stated goal of net zero carbon by 2050.”
Who We Are
SE 2050 is a group of structural engineers dedicated to developing and managing a comprehensive program designed to ensure substantive embodied carbon reductions in the design and construction of our structural systems by the collective structural engineering profession. Our mission is to support our professional community in the goal of net zero embodied carbon structural systems by 2050.
What Is SE 2050?
Our ultimate goal is to achieve net zero embodied carbon structures by 2050 by providing the structural engineering community the resources and guidance they need to make this goal a reality. We also provide our community the current state of structural system embodied carbon nationally by publishing current trends and benchmarks and push our community for reductions by providing annual embodied carbon targets to achieve net zero by 2050.
What is Embodied Carbon?
Embodied carbon refers to the upfront emissions associated with the raw material extraction, fabrication and installation of building materials.
Measuring Embodied Carbon for Structures
There are different ways to measure the embodied carbon of structural systems and all offer varying degrees of information on the overall impact of the system. In general, the most common is to to either consider the entire life cycle of the building from cradle-to-grave or to only consider the impact of product stage of the building materials from cradle-to-gate. Each has benefits and deficiencies. All ways to measure impacts also includes a variable level of what components are actually considered.
Voicing Our Support
Achieving Net Zero Embodied Carbon in Structural Materials by 2050
On March 23rd, 2020 the Carbon Working Group of the Sustainability Committee released a white paper that explores the pathways for which structural materials can achieve net-zero embodied carbon emissions by 2050.
The Urgency of Embodied Carbon and What You Can Do about It
Building materials emit massive amounts of carbon long before the lights go on. Here’s how thoughtful design can reduce global warming impact.
How to reduce ’embodied carbon’ in the construction process
Embodied carbon is an urgent issue because the emissions we release in the next 20 to 30 years are critical to keeping global temperatures at tolerable levels.