MechSE Seminars

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Event Detail Information

Event Detail Information

Science of Transport and Interfacial Interactions in Small Scales and Its Impacts on Energy and Environmental Applications


Professor Saeed Moghaddam, Mechanical & Aerospace Engineering, University of Florida

Date Mar 6, 2013
Time 3:00 pm  

2005 MEL (Deere Pavilion)


Prof. Anthony Jacobi


Linda Conway

Phone 244-0379
Event type MechSE Seminar
Views 498

Abstract: The energy and mass transport at or near the interface of different phases of matter plays a crucial role in the energy, environment, and life science applications. Performance, size, and cost of many devices and systems in these applications are often dictated by the limits of transport and reactive or non-reactive interactions at the micro-, nano-, and molecular-scales. Limits in gas-liquid separation or mixing rates, critical heat flux limits in the heterogeneous phase-change process, ions and molecular transport limits through ion channels, and rate-limiting interactions at the reacting interfaces are examples of challenges, and opportunities, that face this area of science. Advancing the state of knowledge on the physics of these phenomena is of significant scientific and technological interest. In this talk, after a brief introduction of my research pertaining to the aforementioned scientific issues, I will present the relevance of heat and mass transport limitations to an energy conversion system. The energy conversion system in question is a lithium bromide-water (LiBr-water) absorption heat pump. Two of the main processes in the system involve absorption and desorption of water vapor to and from the LiBr-water solution in two separate heat exchangers. Alternative approaches to the existing technology that would enhance the absorption and desorption processes could result in the development of more compact and inexpensive systems. It will be shown that the absorption rate of water molecules into the LiBr-water solution can be significantly enhanced when the solution flow is mechanically constrained by highly permeable nanofibrous membranes and surface microstructures are used to mix the constrained flow. It will also be shown that at certain geometrical and hydrodynamic flow conditions, nanofibrous membranes can be utilized to entirely separate bubbles from a boiling LiBr-water solution flow in a compact microchannel desorber. Finally, I will discuss an opportunity for exceeding the limits of critical heat flux in heterogeneous phase-change processes through the utilization of surface micro/nanostructures and novel flow arrangements.



Biography: Saeed Moghaddam is currently an Assistant Professor at the University of Florida. He received his Ph.D. in Mechanical Engineering from the University of Maryland at College Park in 2006. Before joining the University of Florida in 2010, he was a postdoc in UIUC (2007-2010). In addition to his academic background, he has several years of experience in industrial R&D, design, and manufacturing. His research was recently featured in the Nano Science and Technology Institute (NSTI) Innovation Spotlight. His research in UIUC has been featured in New Scientist magazine as well as the 2010 Guinness World Records (for development of the world’s smallest fuel cell).