Process Technology - Unit Operations (KJE260)

The course covers unit operations relevant to process engineering (eg. separation).


Course description for study year 2024-2025. Please note that changes may occur.

Facts

Course code

KJE260

Version

1

Credits (ECTS)

10

Semester tution start

Autumn

Number of semesters

1

Exam semester

Autumn

Language of instruction

English

Content

In the course, we will cover unit operations such as adsorption, absorption, membrane separation, chemical reactor. Students will get introduced to the fundamental transport processes: mass transport and heat transport and their importance in designing unit operation. In the heat transfer student will learn about modes of heat transfer, Fourier’s law and its use to calculate heat flux through various geometry. In mass transfer, students will learn about diffusion, convective mass transfer, and apply Fick's law for calculating mass flux across various phase boundaries. After this students will calculate the design parameter in the design of the unit operation. This course will also cover reaction kinetics and reactor design.

The course connects current challenges in energy and environmental, with sought process technological solutions, current research & development trends towards sustainable process design.

Learning outcome

After completing this course, the student should be able to:

  • explain different types of separation processes and underlying mechanism
  • explain fundamental transport processes such as mass transfer and heat transfer
  • perform energy and material balance for unit operations.
  • describe in detail unit operations such as absorption, adsorption, Membrane separation, heat exchanger and chemical reactor
  • calculate the crucial design parameter for absorption, adsorption, membrane separation, and heat exchanger units.
  • understand the engineering problems, collect data, analyze the data and use appropriate formulations to solve the problem.

Required prerequisite knowledge

FYS200 Thermo- and Fluid Dynamics

Recommended prerequisites

Basic knowledge of mass and energy balance, and thermodynamics

Exam

Written school exam and assignment

Form of assessment Weight Duration Marks Aid
Written school exam 4/5 3 Hours Letter grades Valid calculator
Assignment 1/5 3 Weeks Letter grades

The course has an ongoing asessment. All parts must be passed in order to obtain a final grade in the course. The assignment is individual. There is no re-sit possibilities for the assignment. Students that wish to improve their result in this part, may do so the next time the course is lectured. A re-sit exam is arranged for the written exam.

Course teacher(s)

Course coordinator:

Sachin Maruti Chavan

Coordinator laboratory exercises:

Liv Margareth Aksland

Method of work

4 hrs of lectures, 2 hrs of excercises and calculations

Overlapping courses

Course Reduction (SP)
Chemical engineering (TE0099_1) 6
Chemical engineering (BIK130_1) 6
Chemical engineering (TE0099_A) 6

Open for

Environmental Engineering - Bachelor in Engineering
Exchange programme at Faculty of Science and Technology

Course assessment

There must be an early dialogue between the course supervisor, the student union representative and the students. The purpose is feedback from the students for changes and adjustments in the course for the current semester.In addition, a digital subject evaluation must be carried out at least every three years. Its purpose is to gather the students experiences with the course.

Literature

The syllabus can be found in Leganto