The course is designed to:

• provide the necessary knowledge and understanding of the fundamental notions in fluid mechanics, integrating specific knowledge with that of other related field in engineering;
• provide the physico-mathematical competences required to understand and model fluid mechanics problems;
• understand and solve simple problems encountered in the process industry and/or in the environment;
• develop learning skills necessary to undertake further study with a high degree of autonomy;

Introduction, physical properties of fluids; Fluid statics (liquids and gases); Dimensional analysis and experimentation; Flow of particulates;  Pressure drops in channels and pipes; Microscopic balance equations; Navier-Stokes equations; Governing equations and applications to one-dimensional systems; Macroscopic balance equations; Design of pipelines and piping networks.

Tests Administration:

• 1 midterm test, which covers the first part of the course;
• 1 final test, which covers the second part of the course;
• 1 replacement test (nachtest), which covers the entire program of the course and is in october.

Test duration: 1h30min.

IMPORTANT NOTE: To be admitted to the midterm and final test, attendance to a minimum of 6 UE is mandatory.

IMPORTANT NOTE:  To be admitted to the replacement test:

• attendance to a minimum of 9 UE lectures is mandatory;
• completion of minimum 50% of the exercises proposed in the homerworks during the UE  is mandatory (completed exercises must be confirmed in TUWel). Important: tutors are requested to randomly check homerworks. When an exercise, marked "complete" in TUWel, is found not made, then the exercise will be considered not made.

Structure of the test:

• Each test consists of 2 or 3 problems;
• Each problem is subdivided into several questions;
• Each question has a score so that the cumulative score of the entire test is 100;
• Each problem must be solved applying the correct equations and providing the correct numerical result when required.

Grades:

To obtain a grade for the course, either the two intermediate tests or the replacement test must be taken.

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• Case 1:  Midterm and final tests

The maximum score for each test is 100. The maximum cumulative score is 200. Scores and corresponding grades will be assigned according to the following table:

SCORE                GRADE
<100   -> (fail)            5
100-130 -> (pass)      4
131-147 -> (pass)      3
148-170 -> (pass)      2
>170 -> (pass)           1

 NOTE:

Access to the final test requires a minimum score of 26 in the midterm test.

A score less than 26 in the final test will correspond to fail in the midterm and final test.

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• Case 2:  Replacement test (October)

The maximum score for the test is 100. Scores and corresponding grades will be assigned according to the following table:

SCORE                GRADE
<50   -> (fail)       5
50-65 -> (pass)       4
66-73 -> (pass)       3
74-85 -> (pass)       2
>85 -> (pass)         1

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Office hours

Group 1 (Ungersbaeck): Monday 14:30-15 Room EI 5 Hochenegg HS
Group 2 (Posch): Monday 10:30-11 Room EI 3 Sahulka HS
Group 3 (Ellmenreich): Tuesday 16-16:30 Room BA07, Seminar room
Group 4 (Scheiber): Monday 9:30-10 Room GM 4 Knoller Hörsaal
Group 5 (Marecek): Wednesday 9:30-10 Room Sem.R. DA grün 03 B
Group 6 (Imran): Thursday 11-11:30 Room BA07, Seminar room
Group 7 (Heindl): Monday 17:30-18 Room Seminarraum BA 02B
Group 8 (Ungersbaeck): Friday 17:30-18 Room Seminarraum BA 08A
Group 9 (Amann): Monday 10:30-11 Room EI 3A Hörsaal
Group 10 (Luszczak): Friday 11:30-12 Room Kleiner Schiffbau
Group 11 (Poellinger): Monday 17:30-18 Room Seminarraum BA 02A
Group 12 (Amann): Monday 16:30-17 Room Seminarraum BA 08A
Group 14 (Imran): Thursday 11:30-12 Room BA07, Seminar room
Group 15 (Luszczak): Tuesday 9:30-10 Room GM 3 Vortmann Hörsaal
Group 16 (Posch): Wednesday 9:30-10 Room FH Hörsaal 4
Group 17 (Heindl): Thursday 17:30-18 Room Kleiner Schiffbau
Group 18 (Giurgiu): Thursday 14:30-15:00 Room GM 8/9 - Hörsaal des Internationalen Wiener Motorensymposiums
Group 19 (Pawlek): Friday 13:30-14 Room Kleiner Schiffbau
Group 20 (Ellmenreich): Tuesday 16:30-17 Room BA07, Seminar room
Group 21 (Giurgiu): Thursday 17:15-17:45 Room GM 8/9 - Hörsaal des Internationalen Wiener Motorensymposiums
Group 23 (Marecek): Friday 11:30-12 Room Seminarraum BA 02A
Group 24 (Bakhoum): Friday 11:30-12 Room Seminarraum BA 08A
Group 24 (Bakhoum): Friday 15:30-16 Room Seminarraum BA 08A
Group 26 (Schausberger): Wednesday 9:30-10 Room Seminarraum BA 08A
Group 27 (Scheiber): Tuesday 9:30-10 Room Seminarraum BA 08A
Group 28 (Pawlek): Tuesday 10:30-11 Room EI 6 Eckert HS
Group 29 (Schausberger): Friday 17:30-18 Room Kleiner Schiffbau
Group 31 (Poellinger): Wednesday 9:30-10 Room EI 3A Hörsaal

(Please contact your tutor for further informations)

Vector analysis, differential and integral multivariable calculus, line and surface integrals, ordinary differential equations