Architecture

Building Science, Technology and Sustainability

Clif Headquarters

Clif Bar Company Headquarters, Emeryville, CA, LEED® Platinum certification

About the Program

The Building Science, Technology and Sustainability faculty at Berkeley study environmental quality in buildings, and ways of producing desirable environments in an energy - and resource - efficient manner. The environmental attributes studied (thermal, luminous, air quality, acoustic) have both physical and psychological dimensions. The intellectual objective of graduate research in building science is uncovering the processes by which a building affects its occupants, evaluating the human/economic/energy consequences of the effects, and incorporating this knowledge in new procedures to design more acceptable buildings.

A secondary objective is to prepare the student for a career involving building science, by having them participate in important funded research ongoing at Berkeley, and by engaging them in the activities of the professional societies where research is presented, debated, and put into forms that influence design practice.

Building Science, Technology and Sustainability research at Berkeley can be divided into the following categories:

Environmental requirements for occupant: health, satisfaction, comfort, and productivity. We have worked extensively on thermal comfort standards appropriate for energy-conserving building design, on lighting and are also involved in ventilation and air quality standards. We have also developed climatic requirements for pedestrian safety and comfort in the outdoor environment.

Design of climatically-adapted buildings that conserve energy and that may help preserve (in naturally heated, cooled, lit and ventilated buildings) long-standing architectural traditions and patterns of habitation. Although the general principles by which such buildings operate are well-known, it is very difficult to predict their actual performance in terms acceptable to a designer. We have developed a number of computerized design methods to help put climatically-adapted architectural and energy efficient mechanical systems on a quantified footing.

Integrated and personalized conditioning systems to improve the energy efficiency and living quality in buildings, both at the large commercial and the residential scale. Our past work has concentrated on heating and ventilating, lighting, windows and glazing, and new solutions that provide occupants with control of their personal environments. We work on radiant and underfloor air distribution systems. We also develop technology and post occupancy survey techniques with which one can diagnose how well a building is performing.

Innovative structures and new fabrication techniques that transform the way buildings are designed, built, and operated. With this pioneering area, we are investigating a different approach to design and construction that integrates hitherto neglected structural behaviors such as bending and buckling as potential form-giving strategies for flexible and adaptive structural systems. By incorporating emerging building technologies such as elastic structures, smart materials, and 3D printing, we are exploring the potential of producing mass-customized functional parts that are tailor-made for their task and can provide a time and material-efficient alternative to traditional construction processes.  

Courses

Coursework is largely decided on an individual basis through consultation between the student and his or her advisor. In general, each student will be required to develop competence in a range of building science, technology and sustainability topics that border the main topic of interest. Students often participate in research projects conducted by the faculty for external sponsors. Thesis research can be structured in many ways, but must be based on an appropriate combination of theory, modeling, digital simulation, physical prototyping, and testing in the laboratory or field.

Faculty

The following are members of the Ph.D faculty who focus on the subject area of Building Science, Technology and Sustainability. Please also review the current list of all faculty in the Architecture Department.  Samples of faculty research can be found in the faculty research projects. Also, visit the Center for the Built Environment (CBE) website for current news and research updates.

Gail S. Brager, Professor of Architecture
Passive Design Strategies, Comfort and Adaptation in Naturally-Ventilated Buildings, Post-Occupancy Evaluation and Personal Comfort Systems

Luisa Caldas, Professor of Architecture
Evolutionary Computation, Generative Design Systems in Architecture and Thermal and Daylighting Behavior of Buildings and Development of New Construction Materials

Stefano Schiavon, Associate Professor of Architecture
Energy Use, Ventilation Strategies, Radiant Systems, Air Movement, Thermal Comfort, Building Performance Simulations, Post-Occupancy Evaluations and Indoor Environmental Quality

Simon Schleicher, Assistant Professor of Architecture
Flexible Structures, Bioinspiration and Biomimetics, Adaptive Architecture, Compliant Mechanisms, Bio-inspired Design and Fabrication, Rapid Prototyping, Structural Design and Computational Form-finding

PH.D Building Science, Technology and Sustainability Alumni

Applicants are also encouraged to review the list of previous Ph.D. students and their dissertation topics for more information on the program.