【借号发帖】CSC博士职位

我爱发明

我们组的一位副教授需要招收三位CFD方向的博士生，这位老师待人很好，而且科研能力超强，虽然是副教授，但H-Index已达18，超教授级，现在他正处于上升期，前景看好。有志于在CFD方向做出一番成就的同学，欢迎踊跃联系。
学校：代尔夫特理工大学（Delft University of Technology)，学校详情请参考：http://baike.baidu.com/view/706062.htm
职位描述如下，我就不翻译了，如果看不明白，默默离开就是了：
#1:
Subject：Advanced Numerical Simulations of Air Flow and Aerosol Distribution in Upper Airways and Lungs:  the Patient Specific Approach  
Contact： Assoc. Prof. Dr. S. Kenjeres, Dipl.-Ing.  (e-mail: S.Kenjeres@tudelft.nl)
Transport Phenomena Section, Department of Chemical Engineering, Faculty of Applied Sciences, Delft University of Technology
Short description: This project addresses the state-or-art multi-phase mathematical modelling and computer simulations of air flow and aerosol deposition within the upper airways and in lungs in humans. Knowledge of  detailed air flow patterns is crucial information which is  needed to provide detailed insights into possible improvements for treatment of numerous diseases of the human respiratory system (bronchitis, asthma, lung cuncer). The patient specific geometries will be studied. These geometries will be provided from our collaborators from the Erasmus Medical Center in Rotterdam – one of the leading university medical centres and hospitals in the Netherlands and Europe.  
This project represents a nice example of a multidisciplinary scientific approach, since you will deal with the computational fluid dynamics tools, bio-medical engineering, scientific computing (using a high performance super computing computational facilities), physics, chemistry and medicine. The goal of the project is to develop and to apply an integral computational approach to predict the best medical treatment (a medical drug delivery) for the specific patient based conditions.
Your background can be in engineering (bio-medical, mechanical, chemical, civil, aerospace), computational science, physics or applied mathematics..

#2:
Subject: Advanced Numerical Simulations of Blood Flow and Medical Drug Delivery in a Human Vascular Sytem
Contact：Assoc. Prof. Dr. S. Kenjeres, Dipl.-Ing.  (e-mail: S.Kenjeres@tudelft.nl)
Transport Phenomena Section, Department of Chemical Engineering, Faculty of Applied Sciences, Delft University of Technology
Short description: This project addresses the state-or-art mathematical modelling and computer simulations of a flow of the bio-fluid (blood) within the complex vascular system (human body). Here, the complex structure of blood (a composition of red blood cells, white blood cells and platelets) will be taken into account through a detailed multi-phase simulation, where each constitute will be mimicked by their own transport equations. The patient specific geometries (including carotid arteries and arteries within the brain vascular system) will be simulated. These geometries will be provided by our medical colleagues from two leading medical university centers and hospitals in Netherlands (Erasmus Medical Center Rotterdam and Leiden University Medical Center). The multi-scale multi-physics simulations will also focus on the elasticity of blood vessels walls (so called fluid-structure-interactions) as well as on transport and delivery of medical drugs though the blood stream.
This project represents a nice example of a multidisciplinary scientific approach, since you will deal with the computational fluid dynamics tools, bio-medical engineering, scientific computing (using a high performance super computing computational facilities), physics, chemistry and medicine.
The goal of the project is to develop and to apply an integral computational approach to predict the best medical treatment (a medical drug delivery) for the specific patient based conditions.
Your background can be in engineering (bio-medical, mechanical, chemical, civil, aerospace), computational science, physics or applied mathematics.

#3:
Subject: Advanced Numerical Simulations of Flow, Turbulence and Pollutants in Complex Urban Areas
Contact：Assoc. Prof. Dr. S. Kenjeres, Dipl.-Ing.  (e-mail: S.Kenjeres@tudelft.nl)
Transport Phenomena Section, Department of Chemical Engineering, Faculty of Applied Sciences, Delft University of Technology
Short description: Increasing urbanization and concern about sustainability and quality of life issues have produced considerable interest in flow and dispersion in urban areas. Urban city landscape with tall buildings and streets of different sizes with surrounding terrain make complex local configuration. Together with an imposed initial temperature distribution in atmosphere, such configuration creates complex unsteady pattern of air movement, which governs the transport and spreading of atmospheric pollutants emitted from the multiple sources. Additional challenges are in treatment of the urban vegetation (trees, green areas, parks). The prediction of these complex interactions is of vital importance for estimating the distributions of pollutants, especially the toxic ones that may pose risk to human health. This is also the major prerequisite for optimum control of air quality and sustainable development of urban environment.
This project represents a nice example of a multidisciplinary scientific approach, since you will deal with the computational fluid dynamics tools, advanced turbulence closures (dynamic Large Eddy Simulations, hybrid RANS/LES approaches), scientific computing (using a high performance super computing  facilities), environmental and atmospheric physics.
The goal of the project is to develop and to apply an integral computational approach to predict dynamical changes of pollution (traffic emission and industrial pollution) within and around urban areas (at the city scale) under different meteorological conditions.
Your background can be in engineering (mechanical, chemical, civil, aerospace), computational science, physics or applied mathematics.

sandy03

要是招博后就更好了

soi

很不错的消息啊，

theanswer003

计算流体力学？