MENU
Sky View Through an Archway on Campus

Editing Help

Please reference the Faculty Profile Editing Guide if you have any questions or issues updating your profile. If you receive any error notices please contact webservices@xyschool.net.

Francisco Salamanca Palou

Assistant Professor | College of Engineering and Science - Ocean Engineering and Marine Sciences

Assistant Professor of Meteorology

Contact Information

Expertise

Planetary Boundary-Layer Dynamics, Surface-Atmosphere Exchange, Urban Climatology, Climate Change and Adaptation, Modeling and Simulation

Personal Overview

Dr. Salamanca is an Assistant Professor of Meteorology in the Department of Ocean Engineering and Marine Sciences at Florida Tech. His research interests include studying ocean-land-atmosphere interactions; investigating planetary boundary-layer dynamics; modeling impacts of urban expansion and global warming on cooling/heating energy demand and thermal comfort; developing mitigation and adaptation strategies to reduce heat stress in urban areas; and, recently, characterizing moisture-source contributions to total precipitation. Francisco’s research uses in-situ observations, satellite remote sensing data, coding development for data analysis, and massive computational resources to perform numerical weather-prediction simulations. 

Educational Background

PhD, Physics (Atmospheric Sciences), Complutense University of Madrid (Spain)

MS, Fundamental Physics, Complutense University of Madrid (Spain)

BS, Fundamental Physics, University of the Balearic Islands (Spain)

Professional Experience

Before joining Florida Tech, Francisco was a postdoctoral scientist, first at Lawrence Berkeley National Laboratory and later at Arizona State University, where he was promoted to Assistant Research Professor. In addition to publishing many papers on the broad field of atmospheric sciences, Francisco developed and implemented a multilayer building-energy model in the internationally used Weather Research and Forecasting (WRF) model to better characterize urban surface-atmosphere interaction; the model has been available for use by the scientific community since 2010.

Current Courses

ENS 3101 Atmospheric Environments 

ENS 5101 Introduction to Air Pollution

MET 4501 Atmospheric Thermodynamics

Selected Publications

Salamanca-Palou F., B. Svoma, J. Walter, D. Insua-Costa, G. Miguez-Macho, J. Karanja, and M. Georgescu (2024), Modeling Salt-Verde Watershed Winter Precipitation Using Convection-Permitting WRF-simulations With Water Vapor Tracers, JGR Atmospheres, http://doi.org/10.1029/2024JD041029

Salamanca-Palou F., and A. Mahalov (2019), Summer- and Wintertime Variations of the Surface and Near-surface Urban Heat Island in a Semiarid Environment, Weather and Forecastinghttp://doi.org/10.1175/WAF-D-19-0054.1 

Salamanca F., Y. Zhang, M. Barlage, F. Chen, A. Mahalov, and S. Miao (2018), Evaluation of the WRF-Urban Modeling System Coupled to Noah and Noah-MP Land Surface Models over a Semiarid Urban Environment, JGR Atmosphereshttp://doi.org/10.1002/2018JD028377

Salamanca F., M. Georgescu, A. Mahalov, M. Moustaoui, and M. Wang (2014), Anthropogenic heating of the urban environment due to air-conditioning, JGR Atmospheres, http://doi.org/10.1002/2013JD021225

Salamanca F., A. Martilli, M. Tewari, and F. Chen (2011), A Study of the Urban Planetary Boundary Layer Using Different Urban Parameterizations and High-Resolution Urban Canopy Parameters with WRF, JAMChttp://doi.org/10.1175/2010JAMC2538.1   

Salamanca F., A. Krpo, A. Martilli, and A. Clappier (2010), A new building energy model coupled with an urban canopy parameterization for urban climate simulations-part I. formulation, verification, and sensitivity analysis of the model, Theoretical and Applied Climatology, 99, 331-344.

 

 

 

Edit Page