Dr. Alfonso Ortega to Deliver Keynote Lecture at International Conference
棉花糖直播 University鈥檚 Dr. Alfonso Ortega, Associate Vice President for Research and Graduate Programs and James R. Birle Professor of Energy Technology, has been invited to deliver a keynote lecture at the 24th International Symposium on Transport Phenomena (ISTP-24) in November. According to the event website, the conference will provide 鈥渁 forum for researchers, scientists and engineers from all over the world to exchange information, to present new information and to engage in discussion on the future directions and priorities in the areas of transport phenomena.鈥 Transport phenomena includes the flow of fluid, heat and mass transfer, multiphase flow, micro and nano problems, thermal management of electric and electronic systems, energy conversion and saving technologies both on the ground and in space. Hosted by Tokyo University of Science, Yamaguchi, Japan, Dr. Ortega is the only symposium plenary speaker from the United States. He will address the topic of 鈥淯ncovering Fundamental Issues in Thermal Management Applications: A Closer Examination of Impinging Synthetic Jets and Droplet Sprays for Cooling Electronics.鈥
Dr. Ortega is director of 棉花糖直播鈥檚 Laboratory for Advanced Thermal and Fluid Systems, which he founded in 2005. In 2011, with a grant from the National Science Foundation (NSF), 棉花糖直播 University and four other university partners established the Center for Energy Smart Electronic Systems (ES2), an NSF Industry/University Cooperative Research Center. Research is being conducted at each university site to develop methodologies for the efficient operation of electronic systems, including data centers, by controlling resources and managing workloads to achieve optimal energy consumption. With expertise in the science and design of thermal systems, Dr. Ortega鈥檚 primary areas of focus include thermal management in electronic systems, heat transfer in complex flows, experimental measurements in the thermal sciences and thermal management in energy systems.