@article {3389, title = {Energy Performance of Underfloor Air Distribution Systems}, year = {2007}, institution = {California Energy Commission - Public Interest Energy Research Program}, author = {Fred S. Bauman and Thomas L. Webster and Hui Jin and Wolfgang Lukaschek and Corinne Benedek and Edward A. Arens and Paul F. Linden and Anna Lui and Walter F. Buhl and Darryl J. Dickerhoff} } @conference {2665, title = {Design of the Natural Ventilation System for the New San Diego Children{\textquoteright}s Museum}, booktitle = {IBPSA Building Simulation 2005}, year = {2005}, month = {08/2005}, address = {Montreal, Canada}, author = {Guilherme Carrilho da Gra{\c c}a and Paul F. Linden and Martha Brook} } @article {11714, title = {Design and Testing of a Control Strategy for a Large Naturally Ventilated Office Building}, journal = {Building Services Engineering Research \& Technology}, volume = {25}, number = {3}, year = {2004}, pages = {211-221}, abstract = {

The design for the new Federal Building for San Francisco includes an office tower that is to be naturally ventilated. Each floor is designed to be cross-ventilated, through upper windows that are controlled by the building management system. Users have control over lower level windows, which can be as much as 50\% of the total openable area. There are significant differences in the performance and the control of the windward and leeward sides of the building, and separate monitoring and control strategies are determined for each side. The performance and control of the building has been designed and tested using a modified version of EnergyPlus. Results from studies with EnergyPlus and computational fluid dynamics are used in designing the control strategy. Wind-driven cross-ventilation produces a main jet through the upper openings of the building, across the ceiling from the windward to the leeward side. Below this jet, the occupied regions are subject to a recirculating airflow. Results show that temperatures within the building are predicted to be satisfactory, provided a suitable control strategy is implemented that uses night cooling in periods of hot weather. The control strategy has 10 window opening modes. EnergyPlus was extended to simulate the effects of these modes, and to assess the effects of different forms of user behaviour. The results show how user behaviour can significantly influence the building performance.

(Note: PDF contains both LBNL-56010 \& LBNL-56010 Conf.)

}, author = {Guilherme Carrilho da Gra{\c c}a and Paul F. Linden and Philip Haves} } @article {280, title = {Design and Testing of a Control Strategy for a Large Naturally Ventilated Office Building}, journal = {Building Services Engineering Research \& Technology}, volume = {25}, year = {2004}, pages = {223-239}, abstract = {The design for the new Federal Building for San Francisco includes an office tower that is to be naturally ventilated. Each floor is designed to be cross-ventilated, through upper windows that are controlled by the building management system. Users have control over lower level windows, which can be as much as 50\% of the total openable area. There are significant differences in the performance and the control of the windward and leeward sides of the building, and separate monitoring and control strategies are determined for each side. The performance and control of the building has been designed and tested using a modified version of EnergyPlus. Results from studies with EnergyPlus and computational fluid dynamics are used in designing the control strategy. Wind-driven cross-ventilation produces a main jet through the upper openings of the building, across the ceiling from the windward to the leeward side. Below this jet, the occupied regions are subject to a recirculating airflow. Results show that temperatures within the building are predicted to be satisfactory, provided a suitable control strategy is implemented that uses night cooling in periods of hot weather. The control strategy has 10 window opening modes. EnergyPlus was extended to simulate the effects of these modes, and to assess the effects of different forms of user behaviour. The results show how user behaviour can significantly influence the building performance.}, doi = {10.1191/0143624404bt107oa}, url = {http://bse.sagepub.com/content/25/3/223}, author = {Guilherme Carrilho da Gra{\c c}a and Paul F. Linden and Philip Haves} } @proceedings {2826, title = {Flow in an Underfloor Plenum}, journal = {SimBuild 2004, Building Sustainability and Performance Through Simulation}, year = {2004}, month = {08/2004}, address = {Boulder, Colorado, USA}, author = {Paul F. Linden} } @article {279, title = {Use of Simulation in the Design of a Large Naturally Ventilated Office Building}, journal = {Building Services Engineering Research \& Technology}, volume = {25}, year = {2004}, pages = {211-221}, abstract = {The design for the new Federal Building for San Francisco includes an office tower that is to be naturally ventilated. The EnergyPlus thermal simulation program was used to evaluate different ventilation strategies for space cooling and rationalize the design of the fa{\c c}ade. The strategies include ventilation driven by different combinations of wind, internal stack and external stack. The simulation results indicate that wind-driven ventilation can maintain adequate comfort even during hot periods. Computational fluid dynamics was used to study the airflow and temperature distribution in the occupied spaces arising from different combinations of window openings and outside conditions and thereby inform both the design of the windows and the control strategy.}, doi = {10.1191/0143624404bt102oa}, url = {http://bse.sagepub.com/content/25/3/211}, author = {Philip Haves and Paul F. Linden and Guilherme Carrilho da Gra{\c c}a} } @proceedings {294, title = {Design and Testing of a Control Strategy for a Large Naturally Ventilated Office Building}, journal = {Building Simulation {\textquoteright}03}, year = {2003}, month = {08/2003}, address = {Eindhoven, Netherlands}, author = {Guilherme Carrilho da Gra{\c c}a and Paul F. Linden and Erin McConahey and Philip Haves} } @proceedings {293, title = {Use of Simulation in the Design of a Large Naturally Ventilated Commercial Office Building}, journal = {Building Simulation {\textquoteright}03}, year = {2003}, month = {08/2003}, address = {Eindhoven, Netherlands}, url = {http://www.inive.org/members_area/medias/pdf/Inive/IBPSA/UFSC912.pdf}, author = {Philip Haves and Guilherme Carrilho da Gra{\c c}a and Paul F. Linden} }