Daniel L. Malone Engineering Center, Yale University+ expand detail
New Haven, Connecticut, USA
64,000 square feet / 6,000 square meters
The design of Yale University’s Daniel L. Malone Engineering Center balances two very different settings, a city street on one side and a wooded trail on the other. The resulting research building expresses its function while respecting its natural and historic surroundings.
Fronting Prospect Street, one of Yale’s main academic thoroughfares, a façade of limestone maintains the rhythm and scale of neighboring buildings. What appears to be a rectangular site from the street is actually a narrow triangle formed where a canal once cut diagonally across the block. On the diagonal of the triangle, facing what is now the Farmington Canal Greenway, a gently curving glass wall spans the full length of the building.
The glass wall encloses the building’s major circulation corridor and is cantilevered from the main structure to create an open, column-free space. Each research suite is perpendicular to the common corridor, with labs at the core of the building and offices adjacent to the hallway. Windows on both sides of the offices bring natural light into the labs. This arrangement also encourages interaction among research teams.
In addition to wet and dry labs for biomedical engineering and physical sciences, the Malone Center includes the Frederick P. Rose Teaching Laboratory, two seminar rooms, and offices. The building houses the Department of Biomedical Engineering, which conducts research into such areas as tissue engineering, drug delivery, and biomedical imaging.
The first building at Yale to achieve LEED Gold, the Malone Center is designed with key sustainable design strategies. The combination of a high-performance exterior envelope with the use of lighting controls, daylighting, and a highly reflective white roof reduce the demand for cooling and the use of energy. By reusing lab wastewater for toilet flushing, and low-flow taps, the building consumes 85 percent less potable water than comparable buildings.