CLT Passive House Confidential: The Financial and Logistical Synergy of PH and Mass Timber

Combining Passive House and mass timber construction presents an opportunity to optimize both operational and embodied carbon. The exposed wood CLT structure and building envelope elements offer numerous benefits including interior aesthetics, a healthier indoor environment, reduced use of interior finish materials, and shorter construction duration. However, to date, most CLT multifamily developments have been boutique condominium projects.

A Successful Approach to Achieving Passive House at Scale

Successful Passive House teams throughout North America follow an approach that, if replicated at scale, can reduce the energy load and carbon output of the built environment at the level needed to address climate change, while improving building quality. Effective scaling requires maintaining an integrated team from early design through construction completion. In this session, we will identify challenges in the Passive House process and share the details of a proven approach to integrating teams, which can be easily and repeatably implemented in projects of all sizes and types.

Prescription for Better Buildings: Phius Prescriptive Path from Start to Plaque

Phius (formerly the Passive House Institute U.S.) introduced a new version of their certification standard in 2021 with the goal of making it easier and more affordable for single-family residential homes to achieve certification. In this presentation, you will learn about this new Prescriptive Path and how it can simplify the design and certification process for single-family homes and make certification available for a wider range of project teams, project sizes and project budgets.

Resilient, Cost-Effective, and Carbon Neutral: The Future of New York’s Multifamily Buildings

As part of the State of New York’s ambitions to achieve a carbon-neutral economy by mid-century, NYSERDA initiated the Buildings of Excellence (BOE) Design Competition for multifamily new construction and deep renovation projects. The results from the first two rounds of BOE awards give insight into achieving higher levels of building performance in terms of energy savings, carbon reductions, and other co-benefits. They provide data on how to manage costs, effectiveness of technology, etc. and offer replicable models for others to follow.

Thermal Bridging '22 What to Know and What to Do

Thermal Bridging can lead to problematic condensation, increased energy usage, reduced occupant comfort, and even noncompliance with energy codes. However, we have the tools to address this challenge. In this session, we will review the three types of structural thermal bridging, briefly cover foundation and slab edge insulation placement and detailing, summarize the conductive thermal requirements of the Energy Codes and, most importantly, identify strategies to calculate the impact on code compliance of structural thermal bridging conditions and mitigated details.

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