(across the globe) and many parallel technical sessions spread over four days. Includes invited keynote talks by distinguished experts from industry and academia
This conference willĪlso provide an ideal environment to develop new collaborations on theįundamentals, applications, and products of the mentioned fields. The world to present advances in the fields of transport phenomena and to foster anĮnvironment conducive to exchanging ideas and information. The goal of this conference is to gather scholars from all over Over the world, intensive research is in progress on all aspects ofįluid flow and heat transfer using theoretical, computational, and experimentalĪpproaches. Traditional fields such as power plants, internal combustion engines, refrigeration andĪir conditioning. Transport phenomena in biological systems are becoming popular along with Cutting-edge research in thermal management,Īdditive manufacturing, green buildings, and micro and nano-scale The role of heat and mass transfer in modern engineering applications and industrial After that, ISHMT and American Society of Thermal and Fluids Engineers (ASTFE) are jointly organizing this Mechanical Engineers (ASME) had jointly organized this conference. During the period of 1994-2013, ISHMT and the American Society of With the researchers from overseas, ISHMT has started collaborating with other premier professional societies. Many well-known experts from abroad participated, exchanged technical information, and shared their expertise with the Indian researchers. Subsequently, the conference has been held once every two years at different places across the country. The ISHMT organized the first National Heat and Mass Transfer ConferenceĪt the Indian Institute of Technology Madras in 1971. Heat and mass transfer and bringing them together for fruitful interaction and exchange of ideas. Recent efforts in UC Davis Chemical Engineering include predictive discrete element modeling of the packing and flow of granular materials (Curtis) transport, adsorption, and rheology of surfactants in foods, foams, and biological membranes (Dungan, Longo, Manikantan, Phillips) dopant transport in polymer semiconductors (Moule) charge transport and nonlinear electrokinetic flows (Miller, Ristenpart ) complex rheology, viscoelasticity, and constitutive modeling of multiphase fluids (Manikantan, Miller, Powell, Phillips) turbulent dispersion of pathogens ( Ristenpart ) droplet and vesicle manipulation in microfluidics ( Ristenpart, Wan) and cerebrovascular circulation (Wan).The Indian Society for Heat and Mass Transfer (ISHMT) has been acting as a nodal agency in India stimulating researchers engaged in various areas of Our transport faculty participate in graduate groups in applied mathematics, biophysics, food science, and biomedical engineering, and often employ interdisciplinary approaches in their research. In view of the growing technological emphasis on small-scale systems, these efforts frequently bring together traditional aspects of transport phenomena with the dynamics of suspended particles, droplets, colloids, vesicles, biological cells, or macromolecules.
Our faculty tackle transport problems in the agricultural, biomedical, chemical, food, personal care, petroleum, and energy industries. Modern problems in transport phenomena are inherently complex, spanning several size scales and often involving the interplay of the motion of material or energy with multiple dissolved or dispersed components.
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