Publications
] . "Effectiveness of Urban Shelter-in-Place I: Idealized Conditions." Atmospheric Environment 41 (2007) 4962-4976.
. "Effectiveness of urban shelter-in-place. II: Residential Districts." Atmospheric Environment 41 (2007) 7082-7095.
. "Influence of indoor transport and mixing times scales on the performance of sensor systems for characterizing contaminant releases." Atmospheric Environment 41 (2007) 9530-9542.
. "Trade-offs between moving and stationary particle collectors for detecting a bio-agent plume." Atmospheric Environment 41 (2007) 8818-8824.
. "Effectiveness of Urban Shelter-in-Place III: Urban Districts." Building Simulation 1 (2008) 144-157.
. Energy Implications of Economizer Use in California Data Centers. Lawrence Berkeley National Laboratory, 2008. 
PDF (1.11 MB)
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PDF (1.11 MB). "Particle Concentrations in Data Centers." Atmospheric Environment 42.24 (2008) 5978 - 5990.
. "Particle Concentrations in Data Centers." Atmospheric Environment 42.24 (2008) 5978 - 5990.
. "Rapid Data Assimilation in the Indoor Environment: theory and examples from real-time interpretation of indoor plumes of airborne chemicals." Air Pollution Modeling and its Applicatiion XIX. . New York: Springer Science + Business Media B.V., 2008. 263-277.
. Design Strategies and Preliminary Prototype for a Low-Cost Arsenic Removal System for Rural Bangladesh. Berkeley: Lawrence Berkeley National Laboratory, 2009. PDF (3.75 MB)
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PDF (3.75 MB). "Energy Demands and Efficiency Strategies in Data Center Buildings." University of California, Berkeley, 2009. PDF (2.57 MB)
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PDF (2.57 MB). "Sensor Networks for Detecting Toxic Releases in Buildings." 11th International Conference on Air Distribution in Rooms, May 24-27, 2009. Busan, Korea, 2009. PDF (175.94 KB)
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PDF (175.94 KB). "Can combining economizers with improved filtration save energy and protect equipment in data centers?." Building and Environment 45.3 (2010) 718-726. LBNL-2939E. PDF (565.31 KB)
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PDF (565.31 KB). Quantification of Black Carbon and Other Pollutant Emissions from a Traditional and an Improved Cookstove. 2010. LBNL-6062E. PDF (4.7 MB)
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PDF (4.7 MB). "Towards improved characterization of high-risk releases using heterogeneous indoor sensor systems." Building and Environment 16.2 (2011) 438-447.
. "Using Energy Efficiency and Producing it Renewably." Physics of Sustainable Energy II: Using Energy Efficiency and Producing it Renewably. . Vol. 1401. AIP Conference Proceedings, 2011. 54-74.
. Effect of Change in Cookstove Types on Visibility - Case Study of the Berkeley-Darfur Stove and Three-Stone Fire. Berkeley: Lawrence Berkeley National Laboratory, 2012. LBNL-6291E. PDF (1.44 MB)
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PDF (1.44 MB). "How Many Replicates Are Sufficient for Characterizing Cookstove Emissions – A Case Study Using the Berkeley-Darfur Stove and Three Stone Fire." AAAR 31st Annual Conference. Minneapolis, MN, 2012.
. How many replicate tests do I need? – Variability of cookstove performance and emissions has implications for obtaining useful results . Berkeley, CA: Lawrence Berkeley National Laboratory, 2013.
. "Emissions and Climate-Relevant Optical Properties of Pollutants Emitted from a Three-Stone Fire and the Berkeley-Darfur Stove Tested under Laboratory Conditions." Environmental Science & Technology 48.11 (2014) 6484 - 6491. LBNL-1003903.
. "How many replicate tests are needed to test cookstove performance and emissions? – Three is not adequate." Energy for Sustainable Development 20 (2014) 21-29. LBNL-1003907. PDF (1.19 MB)
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PDF (1.19 MB)