Course Description:
This session will delve into the concept of embodied carbon, an essential yet often overlooked component of a building's overall carbon footprint. Participants will gain a comprehensive understanding of embodied carbon and its critical role in sustainable architecture today. The session will use case studies to explain how changes to raw materials, transportation methods, and manufacturing processes can play a critical role in reducing carbon emissions. By the end of this session, attendees will be equipped with the foundational knowledge required to make informed decisions and effectively communicate the findings of an embodied carbon analysis to their clients.
Course Level: Introductory
Prerequisite Knowledge: None
Learning Objectives:
- Define Embodied Carbon: Participants will learn what embodied carbon is and understand its significance in the context of sustainable architecture and building lifecycle analysis.
- Identify Current Applications: Participants will explore how embodied carbon is currently being applied in architectural practices to enhance sustainability and reduce the overall carbon footprint of buildings.
- Explain A1-A3 Embodied Carbon Stages: Participants will gain an understanding of the A1-A3 embodied carbon stages (product stage), allowing them to comprehend and explain the impact of materials from extraction to manufacturing.
- Interpret Embodied Carbon Studies: Participants will learn to interpret the results of an embodied carbon study, enabling them to make informed decisions in their practice. They will also gain skills to effectively communicate these findings to clients, ensuring project success and client satisfaction.
About the Presenter:
Farnaz Jahandideh, Ph.D, cove.tool's Decarbonization Researcher III, is a passionate Architectural Engineer with a Ph.D. specializing in life cycle sustainability and decarbonization. With her extensive expertise in green building practices, Farnaz is dedicated to driving positive environmental impact through innovative solutions. Her research in sustainable design is complemented by her extensive teaching experience, having instructed courses on architectural engineering and sustainability.