M-PI-14-FPTM - Fenomeni prenosa toplote i mase

Course specification
Course title
Acronym		M-PI-14-FPTM
Study programme
Module
Type of study
Lecturer (for classes)		professor Tijana Urošević
Lecturer/Associate (for practice)		professor Tijana Urošević
Lecturer/Associate (for OTC)
ESPB		8.0	Status
Condition			Oblik uslovljenosti
The goal		The course provides students with the necessary knowledge of the phenomenon of fluid behaviour,heat and mass transfer in multiphase systems,for process analysis in process engineering.Students get acquainted with the essence of these phenomena,the mathematical apparatus used for their representation,analogies between the transfers as part of mathematical modelling,design and process optimization.
The outcome		Mastering the basic phenomena and specific terminology of the transfer process, the ability to practically apply the acquired knowledge and calculation methods in specific problems of process technology (chemical engineering) to solve specific problems in development and research practice and the ability to use relevant literature and existing software.
Contents
Contents of lectures		Transport characteristics.Transfer in the general concentration field.Fluid behaviour,mechanisms, transfer equations, boundary layer.Heat transfer,mechanisms,special cases,transfer equations.Mass transfer,mechanisms,diffusion and convective mass transfer equations.Heat and mass transfer with phase transformations,interphase transfer,non-stationary transfer and analogies between transfers.
Contents of exercises		Elaboration of typical calculation examples from the mentioned teaching material, practice of methods modelling, design and process optimization and application of appropriate user software.
Literature
D. Cvijović, M. Bošković-Vragolović 2001: Fenomeni prenosa, TMF, Beograd. (Original title) D. Voronjec 1998.: Tehnološke operacije, Mašinski fakultet, Beograd. (Original title) Treyball 1981.: Mass transfer operation, McGraw Hill, New York. (Original title) Byron B. R., Warren E. S., Edwin N. L. 2002, Transport Phenomena John Wiley & Sons, New York (Original title)
Number of hours per week during the semester/trimester/year
Lectures	Exercises	OTC	Study and Research	Other classes
5	0
Methods of teaching		Theoretical and practical teaching is conducted using modern presentation methods with the active participation of students. Studio research work includes solving tasks and applying software for individual and team solving of specific problems through the creation of independent exercises. Verification of acquired knowledge is by taking two knowledge tests.
Knowledge score (maximum points 100)
Pre obligations		Points	Final exam	Points
Activites during lectures			Test paper
Practical lessons			Oral examination	50
Projects
Colloquia		10
Seminars		40