Syllabus

TN0319 Thermochemical conversion, 5.0 Credits

Subjects

Education cycle

Modules

Advanced study in the main field

Grading scale

Language

Prior knowledge

Objectives

The course aims to provide the students with fundamental knowledge on combustion, gasification and pyrolysis of hydrocarbon fuels, of which combustion of solid fuels for heat and power production is the central issue, and technologies for performance and emission control of the processes.

After completion of the course, the students should be able to:

• describe different technologies for combustion, gasification and fuel upgrading

• use relevant equations to solve technical problems related to combustion

• identify technical and environmental problems commonly encountered in industrial boilers, as well as propose suitable solutions to the problems

• perform basic engineering calculations of mass and heat balances for the combustion process

• build models for thermochemical processes and to be able to apply Matlab to solve general problems related to thermal efficiencies, mass balances and emissions

•utilize thermodynamic equations to calculate how the combustion process and thermo technical components influence the performance (evaluated in terms of for example thermal efficiency) of a thermal power plant

Content

• Combustion science with key concepts for flame combustion and combustion of droplets and particles

• Conversion to fuel through gasification, pyrolysis and torrefaction

• Combustion in industrial boilers; design, functionality and performance of common furnace types for different fuel types and sizes

• Furnace process chemistry with emphasis on performance (slag formation, fouling, corrosion, and agglomeration) and emission (aerosols, trace elements, SO2, NH3 and NOx) controls.

• Co-firing and energy from waste

• Introduction to fuel cells

• Methods to tie geochemical cycles affected by combustion processes.

The course is composed of scheduled activities and self-studies. The scheduled activities include lectures, exercises, a laboratory exercise as well as presentation of project work. The lab exercise and the oral presentation of the project work are mandatory elements. Self-studies include literature studies, exercises and project work.

Grading form

Formats and requirements for examination

The examination for the course consists of a written exam and written laboratory reports and project report.

To pass the course, a pass grade is required for the exam, the laboratory reports and the project report. In addition, the student must have attended the compulsory parts of the course.

• If a student has failed an examination, the examiner has the right to issue supplementary assignments. This applies if it is possible and there are grounds to do so.
• The examiner can provide an adapted assessment to students entitled to study support for students with disabilities following a decision by the university. Examiners may also issue an adapted examination or provide an alternative way for the students to take the exam.
• If this syllabus is withdrawn, SLU may introduce transitional provisions for examining students admitted based on this syllabus and who have not yet passed the course.
• For the examination of a degree project (independent project), the examiner may also allow the student to add supplemental information after the deadline for submission. Read more in the Education Planning and Administration Handbook.

Other information

• The right to participate in teaching and/or supervision only applies for the course instance the student was admitted to and registered on.

• If there are special reasons, students are entitled to participate in components with compulsory attendance when the course is given again. Read more in the Education Planning and Administration Handbook.

Additional information

Responsible department

Department of Energy and Technology