Turner Construction Company is leading the way in addressing the essential need for building healthcare facilities that prioritize resiliency, functionality, safety, and sustainability.
Turner鈥檚 recently topped-out healthcare project鈥擬assachusetts General Hospital鈥攄emonstrates how sustainability and resilience are integrated into healthcare construction to meet the challenges posed by climate risks.
Massachusetts General Hospital
The Massachusetts General Hospital (MGH) Phillip and Susan Ragon Building in Boston exemplifies resilient and sustainable healthcare design and construction. This 1.9-million-square-foot redevelopment, a collaboration between Turner and Walsh Brothers, is being built to meet Boston鈥檚 ambitious 2050 carbon reduction goals while enhancing operational resilience. Turner鈥檚 preconstruction team played a pivotal role in the introduction of design strategies, evaluating costs, and driving implementation solutions to ensure the project鈥檚 long-term resiliency and adoption to the energy transition.
鈥淲e have witnessed weather events that have impacted hospitals鈥 ability to operate, jeopardizing patient care,鈥 said Brian Chase, Turner鈥檚 Vice President & Construction Executive on the MGH project. 鈥淚t is imperative to properly manage the design and construction of resiliency elements in our new healthcare facilities to minimize these impacts.鈥
The project features include:
- Climate-responsive systems: Wind-resistant designs and flood barriers to mitigate risks from severe weather.
- Resilient infrastructure: Systems adapted through extensive risk assessments to enhance functionality and safety, including a design to operate as a 鈥96-hour island鈥 under shelter-in-place provisions, ensuring continuous operations during emergencies.
- Sustainability integration: A 90% reduction in emissions compared to baseline code buildings.
Building upon these sustainability efforts, MGH also sets a new benchmark for reducing operational carbon emissions in energy-intensive healthcare facilities. Amidst Boston鈥檚 push to decarbonize its built environment, the Ragon Building demonstrates the potential for significant carbon emissions reductions with minimal first-cost investments.
Healthcare buildings, particularly in cold climates like Boston, face unique energy challenges as large quantities of outside air must be either warmed or dehumidified before entering the facility. Turner and the design team (mechanical engineer BR+A) addressed this challenge by designing an innovative heat pump configuration that extracts energy from the building鈥檚 warm exhaust air and transfers it for pre-heat and re-heat via a water-to-water heat pump.
BR+A鈥檚 Energy Recovery Approach:
This 鈥渆xhaust-source heat pump鈥 is sized for approximately 20% of the building鈥檚 peak heating load but reduces emissions by nearly 90% because buildings operate at part-load conditions for most of the year. By targeting the majority of operating hours rather than designing for the rare peak, the team maximized the potential for carbon emissions savings. This high-performance strategic approach avoids unnecessary costs associated with overdesigning for peak conditions, delivering significant environmental and financial returns.
Turner, one of the few General Contractors experienced in implementing such advanced systems, continues to leverage this technology across the life sciences and healthcare industries, both for new projects and retrofits of existing buildings.
鈥淎t Turner, we understand that sustainable healthcare design and construction is more than weatherproofing buildings; it鈥檚 about purposely creating a healthcare workplace that is resilient to climate change and engineered with high performance solutions that lower emissions and prepare buildings for the energy transition,鈥 said Peter Hamill, Turner鈥檚 Senior Vice President and Project Principal. 鈥淭hese projects exemplify how collaboration and innovation can create facilities that meet climate challenges as well as provide impactful solutions for the long-term operational life of a healthcare project. It is projects like this that help pave the way for a sustainable future.鈥