MAS303 Fluid Mechanics and Heat Transfer for Engineers

Course description for academic year 2024/2025

Previous years

Credits: 10
Campus: Bergen
Semester of instruction: fall. The course will not run autumn 2025.
Language of instruction: Norwegian, English
Semester of assessment: fall.
Course coordinator: professor Boris V. Balakin

Part of studyprograms:

Contents and structure

The objective of the course is to learn selected chapters of fluid mechanics and heat transfer, describing the phenomena most common for a number of industrial applications: energy technology, petroleum, chemical/farma/food/process technology and hydraulic engineering. The course provides understanding of basic mathematical models and their use in engineering.

Contents

Fundamentals of fluid dynamics: Navier-Stokes equations, simplified solutions, Bernoulli's equation
Fundamentals of thermal physics: heat transfer equation and its solutions
Flow in channels of complex geometry: flow regimes, boundary layers and velocity profiles, pressure drop
Fundamental of heat transfer: forced vs natural convection, radiation, conduction; empirical correlations
Hydraulic machines: rhotodynamic vs positive displacement, theory, Euler equation, efficiency
Introduction to hydraulic engineering
Multiphase flows: classification, rheology, flow maps, fixed and fluidized beds
Flows with phase change: boiling/cavitation, NPSH, melting/solidification
Overview over numerical tools in fluid mechanics, turbulence models
Instrumentation in fluid mechanics and heat transfer
Examples of most typical technical solutions

Learning Outcome

At the completion of the course, students should be able to accumulate following

Knowledge

detailed aspects of fluid mechanics and heat transfer
physical description of a typical process

Skills

handling the fundamental mathematical models in fluid mechanics and heat transfer
quantitative estimation of the main operating parameters (pressure, temperature, force, flow rate, efficiency)
calculation of mass, momentum and energy balance in a process

General competence

writing of technical reports, group work, formulation and solution of typical equations in mathematical physics

Entry requirements

MAT110 Mathematics 1

MAT202 Mathematics 2/MAT203 Mathematics 2

Recommended previous knowledge

MAS220 Introduction to Fluid Dynamics

MAS302 Hydraulics

KJE102 Applied Fluid Mechanics

MAT151 Advanced mathematics and physics for structural and mechanical engineers

Teaching methods

2 lectures + 1 tutorial weekly

numerical laboratory works

visits to industrial sites at OneSubsea, Schlumberger, Framo

Compulsory learning activities

1 of 2 written assignments must be delivered within the deadline and approved.

Approved assignments are valid for 4 semesters.

Assessment

Written examination, 4 hours.

Grading scale: A-E/F, where F is fail.

Examination support material

One simple standard HVL approved calculator

More about examination support material