Parker, R.S. (2017) Wind Effects on Air-Cooled Condensers: Wind-Tunnel 2-D Flow Fields for Base Case, Wind Screens, and Louvers. ASME. ASME Power Conference, Volume 1.

Doctoral Thesis (2017): A Full Scale and Experimental Study of Flow Fields of Air- Cooled Condensers. University of California Davis.

Parker, R. and White, B. R. (2016) "Wind Effects on Air Cooled Condensers: Insights from the Wind Tunnel". Cooling Technology Institute, Houston, TX.

Parker, R., Larson, R. and White, B. R. (2015) " Wind Effects on Air Cooled Condensers (Part 1): Determination of Comparable Wind Cases for Modeling". 14th International Conference on Wind Engineering, Porto Alegre, Brazil. Enhanced version submitted for journal review.

Parker, R., Larson, R. and White, B. R. (2015) "Wind Effects on Air Cooled Condensers (Part II): Wind-Tunnel Testing on a Model Power Plant". 14th International Conference on Wind Engineering, Porto Alegre, Brazil. Enhanced version in preparation for journal submission.

Publications and Thesis

“Wind engineering is best defined as the rational treatment of interactions between wind in the atmospheric bounary layer and man and his works on the surface of the Earth.”

Ryan S. Parker, PhD

Publications and Thesis

“Wind engineering is best defined as the rational treatment of interactions between wind in the atmospheric bounary layer and man and his works on the surface of the Earth.”

- Jack Cermak -