#PhD #Positions at the #University of #Illinois at #Chicago - Fall 2016
Multiple PhD Positions in the areas of #computational_mechanics and #biomechanics are available. All qualified applicants are encouraged to send their CV with a brief description of research interests, and copy of their representative publications to hatami@uic.edu).
More information about these positions can be found at http://cbrl.lab.uic.edu/.
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💻 @BanuMusa
🌎 https://Banumusagr.com
Multiple PhD Positions in the areas of #computational_mechanics and #biomechanics are available. All qualified applicants are encouraged to send their CV with a brief description of research interests, and copy of their representative publications to hatami@uic.edu).
More information about these positions can be found at http://cbrl.lab.uic.edu/.
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💻 @BanuMusa
🌎 https://Banumusagr.com
#Lectures on #computational #fluid #dynamics
Applications to #human #thermodynamics
#Authors: Prof. Dr.-Ing. habil. Nikolai Kornev , Prof. Dr.-Ing. habil. Irina Cherunova
This #book is written to introduce the basics of #computational #fluid #dynamics including #turbulence #modelling. The book contains three parts: basic computational fluid dynamics (#CFD), turbulence modelling and application of CFD to some selected problems of human #thermodynamics. The idea of the first part is to describe different numerical methods and algorithms in a simple manner and to enable the readers to write their first CFD programs. The aim of the second part is to cover fundamental aspects of turbulence modelling starting from the physics and principles of the statistical description of turbulence. A short introduction to basic CFD models based on #Reynolds averaging and #Large #Eddy #Simulation is given in a clear and simple form. The last part of the book is devoted to the application of CFD to various problems connected to interaction between human body and surrounding medium. The book can be used for lecture courses on CFD, turbulence modelling and applied human thermodynamics.
📎 http://bookboon.com/en/lectures-on-computational-fluid-dynamics-ebook?utm_medium=email&utm_source=newsletter&utm_campaign=2016-w02-fallback-students-1-a&utm_content=014&email=scientific1man%40yahoo.com&segment=819f4b1cb1900ebf11e3c69293d993f2
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💻 @BanuMusa
🌎 https://Banumusagr.com
Applications to #human #thermodynamics
#Authors: Prof. Dr.-Ing. habil. Nikolai Kornev , Prof. Dr.-Ing. habil. Irina Cherunova
This #book is written to introduce the basics of #computational #fluid #dynamics including #turbulence #modelling. The book contains three parts: basic computational fluid dynamics (#CFD), turbulence modelling and application of CFD to some selected problems of human #thermodynamics. The idea of the first part is to describe different numerical methods and algorithms in a simple manner and to enable the readers to write their first CFD programs. The aim of the second part is to cover fundamental aspects of turbulence modelling starting from the physics and principles of the statistical description of turbulence. A short introduction to basic CFD models based on #Reynolds averaging and #Large #Eddy #Simulation is given in a clear and simple form. The last part of the book is devoted to the application of CFD to various problems connected to interaction between human body and surrounding medium. The book can be used for lecture courses on CFD, turbulence modelling and applied human thermodynamics.
📎 http://bookboon.com/en/lectures-on-computational-fluid-dynamics-ebook?utm_medium=email&utm_source=newsletter&utm_campaign=2016-w02-fallback-students-1-a&utm_content=014&email=scientific1man%40yahoo.com&segment=819f4b1cb1900ebf11e3c69293d993f2
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💻 @BanuMusa
🌎 https://Banumusagr.com
Bookboon
Lectures on computational fluid dynamics - Applications to human thermodynamics
This book is written to introduce the basics of computational fluid dynamics including turbulence modelling.
#Job
#Industrial #UCL #PhD #Studentship in the #Design of Novel #Microfluidic Devices
PhD Studentship
Department of Mechanical Engineering
University College London
UCL-EPSRC DTP-CASE PhD Studentship expression of interest
TITLE: #Computational and #experimental design of new microfluidic devices for isolating circulating #tumour cells:
Description: Outstanding applications are invited to submit their expression of interest to join the Department of Mechanical Engineering at UCL as part of an EPSRC Doctoral Training Programme CASE (DTP-CASE) PhD studentship. The PhD project is being jointly supervised by Professor Emad Moeendarbary from the Department of Mechanical Engineering (University College London, UCL) and Dr Cesar Cortes-Quiroz from ANGLE plc (British multinational medical device company).
Project Brief: Cancer Research UK‘s statistics suggest that men have a 45% likelihood of suffering from cancer during their life, while women are only slightly lower at 41%. All forms of cancer are characterized by excessive proliferation of cells in the form of solid tumours, which often shed cancer cells into the patient’s bloodstream to other secondary locations (metastasis cascade). These cells, known as Circulating Tumour Cells (CTCs), are very rare (a single cell in one billion blood cells) and difficult to isolate. However, they are highly valuable cells due to their defining features. They contain information on the type of disease for cancer diagnosis, which can help in deciding targeted drug therapies and treatment monitoring, while their presence and quantity are indicative of patient prognosis.
For CTC isolation, size-/deformability-based cell separation (enrichment) technologies are distinguished because their operating methods are label-free, fast and simple. Enriched CTCs remain unmodified and viable for downstream analyses.
The aim of this project will be to develop a numerical simulation platform for the design and analysis of the flow patterns of whole blood and biological reagents during the operation of microfluidic devices used for CTCs isolation from patient blood samples. Insights of flow characteristics will be determined and design modifications proposed to improve the capacities and efficiency of the system. Traditional mechanical components of lab equipment systems such as reservoirs, flow generators, valves, tubing, sensors and actuators will be investigated on their efficacy to carry the biological fluids without compromising the performance of the system. A CAD tool will be used to model 2-D and 3-D geometries of a proposed medical device and a CFD tool will explore the fluid flow characteristics in different system components. Aspects of cellular biomechanics and behaviour during blood transport can be included to determine their impact on the performance of critical capturing microdevices of the system. The final outcome of the work will be an improved system configuration and composition as well as its optimum operating conditions. Experimental validations will be coordinated with a leading biotechnology company in new liquid biopsy technology.
Environment, Research and Training: The project is mainly based at UCL (Bloomsbury Campus located in the heart of Central London) which is one of the world’s top multidisciplinary universities, with an international reputation for the quality of its research and teaching. The candidate will benefit from state-of-the-art mechanical engineering research training, high-performance computing, experimental laboratories and combined supervision by world-leading engineers and scientists in the fields of microfluidics, cellular biology, biomechanics, mathematical and computational modelling. As part of this project, you will be collaborating with the industrial partner.
#Industrial #UCL #PhD #Studentship in the #Design of Novel #Microfluidic Devices
PhD Studentship
Department of Mechanical Engineering
University College London
UCL-EPSRC DTP-CASE PhD Studentship expression of interest
TITLE: #Computational and #experimental design of new microfluidic devices for isolating circulating #tumour cells:
Description: Outstanding applications are invited to submit their expression of interest to join the Department of Mechanical Engineering at UCL as part of an EPSRC Doctoral Training Programme CASE (DTP-CASE) PhD studentship. The PhD project is being jointly supervised by Professor Emad Moeendarbary from the Department of Mechanical Engineering (University College London, UCL) and Dr Cesar Cortes-Quiroz from ANGLE plc (British multinational medical device company).
Project Brief: Cancer Research UK‘s statistics suggest that men have a 45% likelihood of suffering from cancer during their life, while women are only slightly lower at 41%. All forms of cancer are characterized by excessive proliferation of cells in the form of solid tumours, which often shed cancer cells into the patient’s bloodstream to other secondary locations (metastasis cascade). These cells, known as Circulating Tumour Cells (CTCs), are very rare (a single cell in one billion blood cells) and difficult to isolate. However, they are highly valuable cells due to their defining features. They contain information on the type of disease for cancer diagnosis, which can help in deciding targeted drug therapies and treatment monitoring, while their presence and quantity are indicative of patient prognosis.
For CTC isolation, size-/deformability-based cell separation (enrichment) technologies are distinguished because their operating methods are label-free, fast and simple. Enriched CTCs remain unmodified and viable for downstream analyses.
The aim of this project will be to develop a numerical simulation platform for the design and analysis of the flow patterns of whole blood and biological reagents during the operation of microfluidic devices used for CTCs isolation from patient blood samples. Insights of flow characteristics will be determined and design modifications proposed to improve the capacities and efficiency of the system. Traditional mechanical components of lab equipment systems such as reservoirs, flow generators, valves, tubing, sensors and actuators will be investigated on their efficacy to carry the biological fluids without compromising the performance of the system. A CAD tool will be used to model 2-D and 3-D geometries of a proposed medical device and a CFD tool will explore the fluid flow characteristics in different system components. Aspects of cellular biomechanics and behaviour during blood transport can be included to determine their impact on the performance of critical capturing microdevices of the system. The final outcome of the work will be an improved system configuration and composition as well as its optimum operating conditions. Experimental validations will be coordinated with a leading biotechnology company in new liquid biopsy technology.
Environment, Research and Training: The project is mainly based at UCL (Bloomsbury Campus located in the heart of Central London) which is one of the world’s top multidisciplinary universities, with an international reputation for the quality of its research and teaching. The candidate will benefit from state-of-the-art mechanical engineering research training, high-performance computing, experimental laboratories and combined supervision by world-leading engineers and scientists in the fields of microfluidics, cellular biology, biomechanics, mathematical and computational modelling. As part of this project, you will be collaborating with the industrial partner.
#Job
موقعیت تحصیلی دکتری در زمینه سازه های کامپوزیتی پیشرفته در دانشگاه یوتا
#PhD RA position(s) in advanced #composite #structures @ Utah State university
Applications are open for PhD RA position(s) in Mechanical & #Aerospace Engineering (MAE) at Utah State University.
I am seeking outstanding and self-motivated students to join our composite research group in the areas of high performance, multifunctional composite structures and their manufacturing. Our core research area include
Lightning #Strike Interaction with Composite Structures;
Composites Dynamic Responses under Extreme Environments;
#Multiphysics #Electromagnetic Modeling;
#Multifunctional Composites.
Candidates with strong background or interest in one or more of the following areas are considered.
Advanced Mechanics of Composite Materials;
#Polymer Composite Characterization and Manufacturing;
#Experimental or #Computational Solid Mechanics;
#FE #simulations with #ABAQUS with #user_subroutines, #COMSOL, #ANSYS (Q3D Extractor, Maxwell, HFSS), or other commercial software packages;
Proficiency in programming skills (#Python/#C++/#Fortran) is strong plus.
If interested, please send a CV and short summary of your research interests/statements to Dr. Juhyeong Lee, MAE Assistant Professor, at juhyeong.lee@usu.edu.
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
☎️ 051-38 67 67 18
موقعیت تحصیلی دکتری در زمینه سازه های کامپوزیتی پیشرفته در دانشگاه یوتا
#PhD RA position(s) in advanced #composite #structures @ Utah State university
Applications are open for PhD RA position(s) in Mechanical & #Aerospace Engineering (MAE) at Utah State University.
I am seeking outstanding and self-motivated students to join our composite research group in the areas of high performance, multifunctional composite structures and their manufacturing. Our core research area include
Lightning #Strike Interaction with Composite Structures;
Composites Dynamic Responses under Extreme Environments;
#Multiphysics #Electromagnetic Modeling;
#Multifunctional Composites.
Candidates with strong background or interest in one or more of the following areas are considered.
Advanced Mechanics of Composite Materials;
#Polymer Composite Characterization and Manufacturing;
#Experimental or #Computational Solid Mechanics;
#FE #simulations with #ABAQUS with #user_subroutines, #COMSOL, #ANSYS (Q3D Extractor, Maxwell, HFSS), or other commercial software packages;
Proficiency in programming skills (#Python/#C++/#Fortran) is strong plus.
If interested, please send a CV and short summary of your research interests/statements to Dr. Juhyeong Lee, MAE Assistant Professor, at juhyeong.lee@usu.edu.
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
©️ بنیان صنعت بَنوموسی™️مرکز پیشرفته طراحی، مهندسی معکوس، آنالیز و ساخت قطعات و تجهیزات مهندسی
☎️ 051-38 67 67 18
موقعیت #تحصیلی و #کاری در دانشگاه صنعتی لوییزیانا امریکا
#Job
A funded #PhD position in #computational #mechanics and #materials
A fully supported Ph.D. position is open in the Advanced Hierarchical Materials by Design Lab at Louisiana Tech University on #multiscale modeling of additively manufactured parts and processes. During this project, the candidate will have the opportunity to collaborate with #NASA research centers and national labs.
The candidates must have earned a degree in Mechanical Engineering or related fields (applicants with an MSc will be given priority) and have a solid background in theoretical and computational mechanics/materials science. Having knowledge of continuum mechanics, finite element modeling, #molecular dynamics #simulations, and a #programming language is a plus.
The applicants should send the following materials to kmomeni@latech.edu and put Ph.D. Applicant in the subject of the email
Cover letter (summarizing their background, achievements, and motivations)
The CV (including list related courses, publications, presentations, projects, and GRE/TOEFL scores)
Transcripts
One representative publication (if applicable)
You may find more detailed information about our research activities at www.knanosys.com
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
☎️ 051-38 67 67 18
#Job
A funded #PhD position in #computational #mechanics and #materials
A fully supported Ph.D. position is open in the Advanced Hierarchical Materials by Design Lab at Louisiana Tech University on #multiscale modeling of additively manufactured parts and processes. During this project, the candidate will have the opportunity to collaborate with #NASA research centers and national labs.
The candidates must have earned a degree in Mechanical Engineering or related fields (applicants with an MSc will be given priority) and have a solid background in theoretical and computational mechanics/materials science. Having knowledge of continuum mechanics, finite element modeling, #molecular dynamics #simulations, and a #programming language is a plus.
The applicants should send the following materials to kmomeni@latech.edu and put Ph.D. Applicant in the subject of the email
Cover letter (summarizing their background, achievements, and motivations)
The CV (including list related courses, publications, presentations, projects, and GRE/TOEFL scores)
Transcripts
One representative publication (if applicable)
You may find more detailed information about our research activities at www.knanosys.com
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
©️ بنیان صنعت بَنوموسی™️مرکز پیشرفته طراحی، مهندسی معکوس، آنالیز و ساخت قطعات و تجهیزات مهندسی
☎️ 051-38 67 67 18
موقعیت #تحصیلی #دکتری در دانشگاه جورج ماسون
Ph.D. Position is available in Mechanical Engineering at George Mason University
#PhD_Position
#Job
#mechanical
An immediate Ph.D. position is available in Mechanical Engineering Department at George Mason University. Candidates should have strong background in #computational solid mechanics and #materials engineering and be willing to perform #experimental work when needed. Candidates must have a Master degree in engineering. Interested candidate may send CV and interest letter to mamirida@gmu.edu.
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
☎️ 051-38 67 67 18
Ph.D. Position is available in Mechanical Engineering at George Mason University
#PhD_Position
#Job
#mechanical
An immediate Ph.D. position is available in Mechanical Engineering Department at George Mason University. Candidates should have strong background in #computational solid mechanics and #materials engineering and be willing to perform #experimental work when needed. Candidates must have a Master degree in engineering. Interested candidate may send CV and interest letter to mamirida@gmu.edu.
__________________
🎁 مشاوره رایگان
☕️ همراه ما باشید...
©️ بنیان صنعت بَنوموسی™️مرکز پیشرفته طراحی، مهندسی معکوس، آنالیز و ساخت قطعات و تجهیزات مهندسی
☎️ 051-38 67 67 18