The Harvard Center for Green Buildings and Cities (CGBC) has completed the retrofitting of its 4,600-sf headquarters in Cambridge, Mass., built in 1924, into a living laboratory called HouseZero, whose design is driven by ambitious performance targets that include nearly zero energy use for heating and cooling, zero electrical lighting during the day, operating with 100% natural ventilation, and producing zero carbon emissions.
Snohetta was this project’s chief architect, and Skanska Teknikk Norway its lead energy engineer.
A prototype, HouseZero has been set up to address a chronic problem within the built environment: inefficient existing structures. The building inventory in the U.S. is estimated to account for 40% of the country’s energy consumption, with 25% of that usage attributed to housing alone. The annual costs of residential energy consumption are enormous: $230 billion for heating, cooling and powering the nation’s 113.6 million households.
CGBC, at the Harvard Graduate School of Design, has embedded hundreds of sensors connected by several miles of wiring within each component of HouseZero, from which it will draw data points that inform its researchers about the building’s behaviors. These data will be the basis of computational simulations for fuel research that could help the Center develop new systems and algorithms that promote energy efficiency, health, and sustainability.
The goal of HouseZero is to create a blueprint for reducing energy demands and increasing cost savings for property owners. “HouseZero challenged us to rethink the conventions of building design and operation to enhance lifelong efficiency and quality of life for occupants,” says Ali Malkawi, founding director of CGBC, and creator and leader of the HouseZero project.
An example of this rethinking is natural ventilation that is controlled by a window actuation system that employs sophisticated software and sensors arrays to automatically open and close windows to maintain a quality internal environment throughout the year. The building itself will strive for best possible comfort. However, Malkawi notes, a window can always be opened manually to ensure individual comfort.
HouseZero’s third floor features a flexible, highly-controlled and monitored experimental space—dubbed the LiveLab—that’s hardwired to the building’s energy exchange system. The space will allow for the testing, swapping, and optimization of new technologies. An immediate goal is to beta test new technologies that can eventually replace the building’s ground source heat pump for peak conditions.
HouseZero is naturally ventilated, and designed to use only natural lighting during the daytime hours. Image: Michael Grimm
The building will also be used to research how structures connect with and respond to its natural environment. Its envelope and materials were designed to interact with the seasons and the exterior environment. The building, according to CGBC, will adjust itself to reach thermal comfort for its occupants.
HouseZero will achieve zero net energy with the help of a rooftop PV array that provides renewable electrical energy for the heat pump as well as for energy required by user equipment. A battery system is employed for night time use and low-sun conditions.
To meet proposed emission cuts of the Paris agreement, HouseZero will offset the hidden emissions generated throughout the building’s anticipated 60-year life cycle, from the fabrication and transport of building materials and construction processes, to maintenance and decommissioning.
The rest of the renovation team on this project included Columbia Construction (CM), Silman Associates (SE), BR+A (MEP/FP/lighting), Bristol Engineering (CE), WindowMaster (BAS/Controls/Natural Ventilation systems), Brekke & Strand Akustikk (acoustrics), Jensen Hughes (code and accessibility consultant), Haley & Aldrich (geotechnical engineer), Syska Hennessy (vertical transportation), Kalin Associates (specifications), Siemens Building Technologies (security systems), Solect Energy (photovoltaic systems), Reed Hilderbrand (landscape architect), Harvard Planning and Project Management; CSL Consulting (project management), and Harvard Graduate School of Design (operations support).
Related Stories
| Aug 11, 2010
International Living Building Institute established to advance 'living buildings'
The idea of a Living Building, a high-performance building that produces its own power and cleans and reuses all of its water, is gaining momentum around the world. In an effort to oversee the global development of Living Buildings, the International Living Building Institute (ILBI) has been established.
| Aug 11, 2010
ASHRAE research targets tying together BIM and energy efficiency
Ensuring that a common language of “energy efficiency” is spoken by both building information modeling software used by architects and energy analysis and simulation software used by engineers is the goal of new research funded by ASHRAE.
| Aug 11, 2010
Report: Building codes and regulations impede progress toward uber-green buildings
The enthusiasm for super green Living Buildings continues unabated, but a key stumbling block to the growth of this highest level of green building performance is an existing set of codes and regulations. A new report by the Cascadia Region Green Building Council entitled "Code, Regulatory and Systemic Barriers Affecting Living Building Projects" presents a case for fundamental reassessment of building codes.
| Aug 11, 2010
Portland Cement Association offers blast resistant design guide for reinforced concrete structures
Developed for designers and engineers, "Blast Resistant Design Guide for Reinforced Concrete Structures" provides a practical treatment of the design of cast-in-place reinforced concrete structures to resist the effects of blast loads. It explains the principles of blast-resistant design, and how to determine the kind and degree of resistance a structure needs as well as how to specify the required materials and details.
| Aug 11, 2010
Rice concrete can cut greenhouse emissions
Rajan Vempati of ChK Group, Inc. in Plano, Texas, and a team of researchers found a way to make nearly carbon-free rice husk ash for concrete, which can lead to a boom in green construction.
| Aug 11, 2010
NYLO Hotel in Dallas will run on renewable energy
When NYLO Dallas/Las Colinas opens in late July 2009, it will run on 100 percent renewable energy. The loft-style boutique hotel brand has signed an agreement with TXU Energy to become the supplier’s first hotel customer in the Dallas/Fort Worth area to purchase 100 percent Renewable Energy Certificate-based electricity.