Howdy Goudey began working in the Windows and Daylighting group at LBNL in 1993. At the time he was a student at University of California, Berkeley, where he completed a BS degree in Engineering Physics in 1997. He has over twenty-five years of experience at LBNL with hands-on laboratory design and measurement with an emphasis on thermal systems, the building envelope (particularly windows), heat transfer and solar energy systems. With a strong dedication to energy efficiency and renewable energy engineering, test and measurement, Howdy has developed expertise with quantitative infrared thermography techniques in laboratory and field environments, including management and operation of thermal environmental chambers (IRlab) and a thermal calorimetry facility using outdoor weather conditions (MoWiTT). The Berkeley Lab environment has provided the opportunity to contribute to numerous diverse research efforts, both within and outside his focus on solar/thermal aspects of the building envelope, including: electronic and mechanical design and fabrication, experimental data acquisition and motion control hardware, and advanced prototype development of new technologies. Howdy was part of a team that received an R&D100 award in 2001 for contributions to Gas Filled Panel (GFP) high performance thermal insulation development.
Engineering Physics, BS, UC Berkeley, 1997
"Experimental validation for thermal transmittances of window shading systems with perimeter gaps." Journal of Building Performance Simulation (2018) 1 - 13. .
"Experimental validation and model development for thermal transmittances of porous window screens and horizontal louvred blind systems." Journal of Building Performance Simulation 11.2 (2017) 190 - 204. LBNL-2001141. .
"An empirical study of a full-scale polymer thermochromic window and its implications on material science development objectives." Solar Energy Materials and Solar Cells 116 (2013) 14-26. LBNL-6376E. .
"Thermal Performance Impacts of Center-of-Glass Deflections in Installed Insulating Glazing Units." Energy and Buildings 54.November 2012 (2012) 453-460. LBNL-5800E. .
"Fenestration of Today and Tomorrow: A State-of-the-Art Review and Future Research Opportunities." Solar Energy Materials and Solar Cells 96 (2012) 1-28. LBNL-5304E. .
"Key Elements of and Materials Performance Targets for Highly Insulating Window Frames." Energy and Buildings 43.10 (2011) 2583-2594. LBNL-5099E. .
Research Needs: Glass Solar Reflectance and Vinyl Siding. 2011. LBNL-5022E. .
"Experimental and Numerical Examination of the Thermal Transmittance of High Performance Window Frames." Thermal Performance of the Exterior Envelopes of Whole Buildings XI International Conference, December 5-9, 2010. Clearwater Beach, FL, 2010. LBNL-3886E. .
"Highly Insulating Glazing Systems using Non-Structural Center Glazing Layers." 2008 Annual ASHRAE Meeting. Salt Lake City, UT, 2008. LBNL-611E. .
"Performance Criteria for Residential Zero Energy Windows." 2007 ASHRAE Winter Meeting. Dallas, TX, 2006. LBNL-59190. .
A First-Generation Prototype Dynamic Residential Window. 2004. LBNL-56075. .
"Infrared Thermography Measurements of Window Thermal Test Specimen: Surface Temperatures." ASHRAE Seminar. Atlantic City, NJ, 2001. LBNL-47373. .
"Infrared Thermography Systems." The Encyclopedia of Imaging Science and Technology. 2000. LBNL-46590. .
"Experimental Techniques for Measuring Temperature and Velocity Fields to Improve the Use and Validation of Building Heat Transfer Models." Thermal Performance of the Exterior Envelopes of Buildings VII. Clearwater Beach, FL, 1998. LBNL-41772. .
"Rapid field testing of low-emittance coated glazings for product verification." ASHRAE/DOE/BTECC Conference, Thermal Performance of the Exterior Envelopes of Buildings VII. Clearwater Beach, Florida, 1998. LBNL-41352. .