PAÜ .:. Eğitim Öğretim Bilgi Sistemi

COURSE INFORMATION

Course Code	Course Title	L+P Hour	Semester	ECTS
KMUH 304	MASS TRANSPORT	3 + 0	6th Semester	4

COURSE DESCRIPTION

Course Level	Bachelor's Degree
Course Type	Compulsory
Course Objective	Mass transport. To teach the mass transport coefficients between the phases.
Course Content	Hydrodynamics and operating mode of the reactor, the reactor mass conservation equations; batch, semi-batch, plug flow, back blending reactors; stoichiometric relationships and changes in the reaction system; energy conservation equations in the reactor; mathematical models for the reaction rate; fluid / solid catalytic reactions.
Prerequisites	No the prerequisite of lesson.
Corequisite	No the corequisite of lesson.
Mode of Delivery	Face to Face

COURSE LEARNING OUTCOMES

1	Mass in the reactor will have information about the conservation equations.
2	Batch, semi-batch, plug flow, allows the back mixed reactors.
3	Interphase mass transport coefficients learn.

COURSE'S CONTRIBUTION TO PROGRAM

	PO 01	PO 02	PO 03	PO 04	PO 05	PO 06	PO 07	PO 08	PO 09	PO 10	PO 11	PO 12
LO 001	3		4	4	3	5		2		3		2
LO 002	2		4	2	3	4			2	2
LO 003	2		3	3	4	4		1	3	4		3
Sub Total	7		11	9	10	13		3	5	9		5
Contribution	2	0	4	3	3	4	0	1	2	3	0	2

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION

Activities	Quantity	Duration (Hour)	Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)	14	3	42
Hours for off-the-classroom study (Pre-study, practice)	14	2	28
Mid-terms	1	14	14
Final examination	1	20	20
Total Work Load ECTS Credit of the Course			104 4

COURSE DETAILS

Select Year

Course Details

Course Code	Course Title	L+P Hour	Course Code	Language Of Instruction	Course Semester
KMUH 304	MASS TRANSPORT	3 + 0	1	Turkish	2023-2024 Spring

Course Coordinator	E-Mail	Phone Number	Course Location	Attendance
Assoc. Prof. Dr. ERDAL UĞUZDOĞAN	erdalu@pau.edu.tr		SABF C0106	%70

Goals		Mass transport. To teach the mass transport coefficients between the phases.
Content		Hydrodynamics and operating mode of the reactor, the reactor mass conservation equations; batch, semi-batch, plug flow, back blending reactors; stoichiometric relationships and changes in the reaction system; energy conservation equations in the reactor; mathematical models for the reaction rate; fluid / solid catalytic reactions.

Topics

Weeks	Topics
1	Momentum, Heat and Mass transfer analogies
2	Introduction, fundamental principles of mass transfer. Molecular diffusion, Fick's law, diffusion coefficient
3	Mass average velocity, molar average velocity, volume average velocity
4	Molar flux, molcular diffusion flux, convective flux
5	Diffusion through a stagnant component
6	Diffusion through a moving component. Equimolar counter diffusion
7	mass transfer example solutions
8	mass transfer example solutions
9	Differential equations of mass transfer. Initial and boundary conditions
10	Molecular diffusion without homogenous chemical reactions
11	Molecular diffusions with homogenous chemical reactions
12	Convective mass transfer
13	Convective mass transfer correlations
14	Interphase mass transfer, two-resistance theory ,Overall review

Materials

Materials are not specified.

Resources

Resources	Resources Language
Uysal B. Z. Kütle Transferi Esasları ve Uygulamaları, Ankara 2003	Türkçe
Alpay E. Demircioğlu M. Kütle aktarımı ve Kütle Aktarım İşlemleri Ege Üniv. Müh. Fak. Kimya Müh. İzmir 2005	Türkçe
Geankoplis C. J. Transport Process and Seperation Process Principles, Prentice-Hall Pearson Education Inc. 2003	English

Course Assessment

Assesment Methods	Percentage (%)	Assesment Methods Title
Final Exam	60	Final Exam
Midterm Exam	40	Midterm Exam

L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes

Prospective Student