Physical Transport Phenomena 2

Uitgebreide vaknaam	Physical Transport Phenomena 2
Leerdoelen	At the end of the course, the student is able to: 1. Apply the general conservation laws for mass, momentum and energy to describe the evolution of a physical/chemical system in time and 3-dimensional space. 2. Identify and explain relations between physical transport processes and bulk fluid properties such as viscosity, heat conductivity and diffusion coefficient in simple and complex systems. 3. Solve physical transport equations to make quantitative assessments of the flow, heat and mass transfer performance in simple and complex systems. 4. Develop their critical thinking and engineering skills in problem analysis and solving.
Omschrijving	The following subjects will be treated: - Conservation laws for mass, momentum and energy - Navier-Stokes equation and computational fluid dynamics - Flow phenomena in simple and complex geometries - Practical rheology - Advanced heat transfer - Mass transfer at interfaces without and with chemical reaction - Combined heat and mass transfer
Uren per week
Onderwijsvorm	Hoorcollege (LC), Werkcollege (T) (Total hours of lectures: 22 hours, tutorials: 18 hours, self study: 100 hours)
Toetsvorm	Schriftelijk tentamen (WE)
Vaksoort	bachelor
Coördinator	Prof. Dr. J. Yue
Docent(en)	Prof. Dr. F. Picchioni ,Prof. Dr. J. Yue
Verplichte literatuur	Titel Auteur ISBN Prijs Transport Phenomena (2nd edition) W.J. Beek, K.M.K. Muttzall, J.W. van Heuven 978-0-4719-9990-4 Lecture slides and tutorial assignments on the Nestor.
Entreevoorwaarden	The course unit assumes prior knowledge acquired from Physical Transport Phenomena 1 from the Bachelor’s programmes in Chemical Engineering.
Opmerkingen	This course is will be offered (and scheduled) in 1b twice this year: 1 time for the third year students, and one time for the second year students. This course prepares necessary knowledge and skills for the students to continue their study at year 3, especially concerning the course <Multiphase Reactors> for the degree programme BSc Chemical Engineering. The final mark is based on a written exam with typically 3-5 open questions which will be further structured by means of sub-questions. Learning objectives 1-3 are covered by at least one question.
Opgenomen in	Opleiding Jaar Periode Type BSc Chemical Engineering 3 semester I b verplicht BSc Courses for Exchange Students: Chemistry - Chemical Engineering - semester I b Pre-master/Fast-track for MSc Chemistry - CE  (Fast-track Chemical Engineering) - semester I b verplicht Pre-master/Fast-track for MSc Chemistry - CE  (Pre-master Chemical Engineering) - semester I b verplicht