ING2043 Fire Dynamics

Contents and structure

The course will providestudents with thorough understanding of chemistry, physics andfluid mechanicsfor firesandinteractionswiththe firecommunity.Introduction tofirecauses,harmful effects offiresand possibleconsequence reducing measurescontainedin the subject.

Learning Outcome

-Knowledge:

The student

• Can analyze and use chemical reactions in connection with a fire related to energy production, flame temperature and combustion products.
• Can apply the theory of heat transfer during conduction, convection and heat radiationin related to fire.
• Can explain fire as a phenomenon including the stages of fire.
• Can explain and calculate how a fire is influenced by the environment (smoke, walls, roof). The knowledge will be developed through theory and experiment.
• Can explain and calculate smoke production, plume theory and transport of smoke.
• Can explain and calculate ignition, flammability limits and damaging effects of smoke.
• Can explain how fire affects the community through fire causes and fire statistics.
• Has knowledge of research and development in the field.
• Can keep his knowledge up to date within the field.

 

-Skills

The student can

• Calculate heat transfer through structures and between solids.
• Calculate flammability limits, flame temperature, ignition temperature of liquids and gases.
• Consider and calculate fire development.
• Calculate smoke development and smoke spreading.
• Calculate fire influence on simple structures.
• Measure fire parameters such as temperature, heat flux and mass.
• Apply academic knowledge supported by literature and research results, to solve problems and make founded choices.
• demonstrates a critical view on professional practice, individually and in teamwork, and adjusts this under guidance.

-General qualification:

The student:

• Can present the specialized knowledge, laboratory and measuring reports.
• Can use computer tools to perform calculations and present the results.
• Can reflect over his work in a team and schedule tasks.
• Can identify solutions in his field and contribute to discussion related to impact and significance of the solution.

Entry requirements

None.

Recommended previous knowledge

Chemistry and Environment; Physics; Analysis and Linear Algebra; Thermodynamics and Fluid Mechanics .

Teaching methods

Lectures, exercises, demonstrations, laboratory exercises and use of simple computer tools.

Compulsory learning activities

None.

Assessment

Part 1: Portfolio, accounts for 50 % of the final grade.

Part 2: Written exam, 3 hours, accounts for 50 % of the final grade.

Grade:  A - E / passed;  F / failed.

Both parts must be passed.

Examination support material

Written exam: Simple calculator: Allowed calculator is Casio fx-82 (all varieties: ES, ES Plus, EX, Solar etc.)

More about examination support material

Course reductions

• ING2034 - Branndynamikk - Reduction: 10 studypoints
• ING2022 - Branndynamikk - Reduction: 10 studypoints
• ING2010 - Branndynamikk - Reduction: 10 studypoints
• SIK201 - Bridging course for Master in Fire Safety Engineering - Reduction: 5 studypoints
• SIK201S - Bridging course for Master in Fire Safety Engineering - summer course - Reduction: 5 studypoints