As the energy and carbon landscape evolves, the design and construction of hospitals must change to meet new challenges. New techniques, perspectives and methodologies must be applied to drive innovation and achieve outstanding results. From the dual perspective of a CPHC and experienced HVAC design engineer, we will provide an overview of Passive House principles in the context of hospital design and construction. We will review three case studies: one occupied, one in construction, and one in design.

Dense packing cellulose in roof slopes has been a common insulation retrofit strategy in New England for a long time, however technically it has not been allowed by code without the inclusion of venting or foam insulation at the roof sheathing for condensation control. Previous BuildingEnergy presentations have suggested that further research should be done to evaluate whether vented attic space above unvented dense-packed slopes could manage moisture more effectively than insulating all the way up to the ridge.

Retrofitting buildings to reduce operating emissions is a key climate strategy. Viable, affordable, and scalable strategies must be implemented. However, we must avoid a surge of embodied carbon emissions from the manufacturing of building materials. This presentation showcases research and case studies evaluating the embodied carbon investment of varying retrofit assembly strategies and construction methodologies in cold climates with the expected operational carbon savings. We will hold an introductory how-to workshop on low embodied carbon approaches that exist today.

This session offers a case study of a curtainwall building in which the project team collaborated on an iterative energy modeling and design process to achieve aggressive energy reduction goals. Our panel will share insight on the process that led to significant energy and carbon reductions, predictive versus post occupancy usage data, and how this building will adapt to BERDO 2.0 and future energy and resilience considerations – a challenge facing recently constructed buildings that will need to decarbonize in the near future in Boston.

With rising determination to fight the climate crisis worldwide, practitioners are finding the Passive House standard a potent solution for the building sector. As passive and other sustainable building standards are proliferating worldwide, those standards meet a host of different location-specific challenges. This diverse panel of women architects and certified Passive House consultants are seeking to understand the adaptation of the Passive House standard globally.

Typical university dormitory projects are capital intensive and take several years to complete. This project turned this practice on its head. Using modular construction, on-site precast foundations, an integrated design-build team and low-embodied-carbon materials in a holistic approach, Colby College housed students as quickly as possible while ensuring the highest standards of beauty, accessibility, energy consumption, and healthy materials. Design started in September 2021, and students moved in in August 2022.

Windows are a key part of the building enclosure, but they are also the costliest, most fragile, and worst thermally performing component. We will present on windows from our viewpoint as building enclosure consultants and forensic failure specialists. We will explore energy and comfort impacts of glazing and glazing ratios, and then move on to water control detailing and the window-to-wall interface. Covered topics will include sill pan and rough opening flashings, “innie” vs.

The Massachusetts Maritime Academy consists of 16 buildings comprising approximately 600,000 sf, with heating for the buildings is provided by gas fired hot water boilers in each. They have undertaken a planning effort and initial design for a distributed campus-wide ground source heat pump system, combined with extensive energy retrofits. The plan consists of a neutral temperature Energy Transfer Loop that will tie various geo-exchange systems together to feed heat pump plants in each building.