These advances are directed to improving capabilities for control of turbulence and to modeling turbulence for engineering analysis. The Shorenstein Asia-Pacific Research Center (APARC) is dedicated to the study of critical issues affecting the countries of Asia and their regional and global relations. Read more about them NNSA | AFOSR | ONR | NSF | NASA | Exascale | ME | SoE, © Stanford University. Two-phase flow algorithms for complex geometries. The essence of the CTR is to provide the central core of this needed critical mass activity. Stanford University, one of the world's leading teaching and research institutions, is dedicated to finding solutions to big challenges and to preparing students for leadership in a complex world. In some cases, they will let engineers control it. Visit COVID-19 Resources for Teachers & Families. Stanford, California 94305. This land is of great importance to the Ohlone people, and has been since time immemorial. It is essential that those working on theoretical aspects of the problem interact with those conducting experimental or computational research, and that a broad range of viewpoints and methods be brought together in a catalytic manner. Stanford, California 94305. Our top priority is the safety of our patients, our employees, and our community. Updated daily: Stanford Medicine is closely monitoring the COVID-19 pandemic. Aircraft are one of the loudest sources of human-created noise. Please visit www.qspot.online for the latest info on QSR events, resources, and programming. Turbulence is the rule -- not the exception -- in complex engineering systems. It is the hub of Cardinal Service, a university-wide effort to make service an essential feature of a Stanford education. The main elements of the Center are an extensive Fellows program, a biennial summer program, seminars and workshops, and a core of PhD students and postdoctoral researchers. Medical training would have a surgeon look at the MRI results, discuss surgery options with… Read More >> The Stanford Photonics Research Center builds strategic partnerships between the Stanford University research community and companies employing optics and photonics in their commercial activities. A number of organizations support the work at CTR, including programs sponsored by the Department of Energy’s National Nuclear Security Administration (NNSA), Air Force Office of Scientific Research (AFOSR), Office of Naval Research (ONR), National Aeronautics and Space Administration (NASA), National Science Foundation (NSF), as well as industrial partners and international research agencies. Courses are offered on the undergraduate and graduate levels in a program complemented by a full range of guest lectures, conferences, and symposia. We would like to recognize that Stanford sits on the ancestral land of the Muwekma Ohlone Tribe. Click here for additional information related to the museums’ response to Covid-19. With data from physical and numerical experiments, CTR develops reduced order models, numerical algorithms and flow measurement techniques for prediction and control of turbulent flows for engineering analysis. A young, obese patient walks in complaining of back problems. Although the emphasis of the CTR is to advance the understanding of turbulent flows, it is an interdisciplinary program; researchers with interest in turbulence are sought from Mathematics, Aeronautics, Meteorology, Physics, Astrophysics, Solar Physics, Computer Science, Oceanography, and other areas. Copyright Complaints Trademark Notice. The CTR Summer Program is a biennial summer research program. The principal objective of the CTR is to stimulate significant advances in the physical understanding of turbulence and related non-linear multi-scale phenomena.