Ryan Meyer is a Program Manager in The Weidt Group’s Denver office, where
he leads design assistance and modeling services for utility-sponsored energy
efficiency programs. He has several published manuscripts in technical
journals and conference proceedings on a range of topics surrounding building
energy use, simulation, and methodologies that provide detailed and real-time
information about the dynamic indoor environment. Ryan holds a Masters and a
Doctorate degree in Civil Engineering from the University of Wyoming with
particular emphasis on building systems performance and modeling.
Publications:
• Meyer, R. D. and Tan, G. Experimental investigation of assumptions used
to quantify airflows through a window under cross natural ventilation.
International Journal of Ventilation 2014; 13 (3): pp 259-272.
• Meyer, R. D. and Tan, G. Use of proper orthogonal decomposition and
linear stochastic estimation technique to investigate real-time detailed
airflows for building ventilation. Indoor and Built Environment 2016; 25 (2):
pp 378-389.
• Meyer, R. D. and Tan, G. An overview of unsteady analysis techniques for
natural wind turbulence and its effects in natural ventilation. International
Journal of Ventilation 2014; 13 (1): pp 65-76.
• Meyer, R. D. and Tan, G. Provide detailed and real-time indoor
environmental information using POD-LSE and limited measurements. Energy and
Buildings 2014; 73: pp 59-68.
• Meyer, R. D. Monitoring detailed real-time building environments using
PODLSE technique and limited measurements. Dissertation for Doctorate of
Philosophy degree at University of Wyoming 2013; Ann Arbor, MI: Proquest.
• Meyer, R. D. An examination and analysis of residential applications of
under floor air distribution systems using a realistic test environment and
methodology to assess thermal performance for heating and cooling conditions.
Thesis for Master of Science degree at University of Wyoming 2011; Ann Arbor,
MI: Proquest.