This session will explore the building science implications of achieving the Passive House metrics for larger buildings and will highlight the difference in design strategies compared to single family Passive House homes. Multifamily projects of all types, but especially affordable housing developers, appreciate the benefits of achieving Passive House, such as increased durability, low operating and maintenance costs, assured comfort, and superior indoor air quality.

Why do we need to ventilate homes? How much air do we need to do it? Once we’ve figured that out, what systems should we install? These are big questions, but this session will hopefully provide useful answers. We’ll begin with a discussion of health impacts of ventilation and different ventilation rates. The latter part will explore various ventilation systems: pros and cons, costs and benefits, and tips for installing the best systems for your project.

Advances in building envelopes and HVAC equipment enable widespread use of air source heat pumps by many in the "Net Zero Energy" and "Passive House" movements. Steve Bluestone will report on two related items: a three year performance study of an air source heat pump system using hourly measurements (done with Henry Gifford and built above his garage) and the design and construction of his new 101 unit high performance rental building in NYC utilizing the same technology.

With the drop in envelope loads and the rise in efficient heat pumps (even in cold climates), quite a few homes are moving away from fossil fuels towards electric HVAC. One recurring question is: what to do about water heating? This session covers various options - simple electric tanks, tankless electric heaters, solar thermal, heat pump water heaters, etc. - and presents real cost and energy data from several research & evaluation projects.

The presentation illustrates the financial prudence of net zero buildings today. From the outset of design through construction and operation, Maclay Architects and Energy Balance utilize comparative energy modeling and cost estimating to determine financial benefits of net zero buildings compared to code compliant or intermediate building solutions.