mvs_thesis_report_template.docx
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The title of the thesis should be positioned here - And a possible subtitle could be positioned here Author Name (Nr1) Author Name (Nr2) Linköpings universitet Institutionen för ekonomisk och industriell utveckling Examensarbete 2015| LIU-IEI-XXX-A—YY/XXXXX--SE Linköpings universitet Institutionen för ekonomisk och industriell utveckling Avdelning Examensarbete 2015| LIU-IEI-XXX-A—YY/XXXXX--SE The title of the thesis should be positioned here - And a possible subtitle could be positioned here Author Name (Nr1) Author Name (Nr2) Academic supervisor: Name Surname Industrial supervisor: Name Surname Examiner: Name Surname Linköpings universitet SE-581 83 Linköping, Sweden 013-28 10 00, www.liu.se Abstract Body text … i Acknowledgements Body text … ii Nomenclature Latin Symbol T U f Description Unit Temperature K Velocity magnitude m s-1 Frequency Hz Non-dimensional wall distance - Symbol µ Description Unit Dynamics viscosity kg m-1 s-1 π±ππ Pressure-velocity gradient tensor m2 s-3 π¦ + Greek Abbreviations and Acronyms Letter Description CFD RMS Computational fluid dynamics Root mean square iii Contents Abstract ............................................................................................................................. i Acknowledgements .......................................................................................................... ii Nomenclature.................................................................................................................. iii Contents ...........................................................................................................................iv 1. Introduction .................................................................................................................. 1 1.1 Heading level 2 ........................................................................................................................ 1 1.1.1 Heading level 3 .............................................................................................................................. 1 2. Theory .......................................................................................................................... 2 2.1 Heading level 2 ........................................................................................................................ 2 2.1.1 Heading level 3 .............................................................................................................................. 2 3. Method......................................................................................................................... 3 3.1 Heading level 2 ........................................................................................................................ 3 3.1.1 Heading level 3 .............................................................................................................................. 3 4. Results .......................................................................................................................... 4 4.1 Heading level 2 ........................................................................................................................ 4 4.1.1 Heading level 3 .............................................................................................................................. 4 5. Discussion ..................................................................................................................... 5 5.1 Heading level 2 ........................................................................................................................ 5 5.1.1 Heading level 3 .............................................................................................................................. 5 6. Conclusions ................................................................................................................... 6 7. Perspectives .................................................................................................................. 7 References ........................................................................................................................ 8 Appendix A ....................................................................................................................... 1 A.1 Heading level 2 ........................................................................................................................ 1 A.1.1 Heading level 3 .............................................................................................................................. 1 References ........................................................................................................................ 2 iv 1. Introduction This document follows parts of the text-formatting guidelines set by division of Applied Thermodynamics and Fluid Mechanics for report writing [1]. Pay attention to the specified margins before and after different parts in this template (Page Layout<Spacing). For further instructions the reader is referred to the online material. Next paragraph …. 1.1 Heading level 2 This heading numbering is now in direct link to the table of content. If you which to add a new subheading simply copy and paste. To add a new chapter copy the full page and paste it into a blank page, right-click on the number<Restart at 1, thereafter right-click<Adjust List Intents…>Enter formatting for number: (change the level number manually) 1.1.1 Heading level 3 Body text … Heading level 4 Body text … 1 2. Theory 2.1 Heading level 2 Example on how to an equation: 1 2 2 2 ππΎπΈ = 2 π(π’′ + π£ ′ + π€ ′ ) Note that this is actually a 3 x 1 table with hidden borders. 2.1.1 Heading level 3 Body text … Heading level 4 Body text … 2 (1) 3. Method 3.1 Heading level 2 Example of figure with caption: Fig. 1: Showing a concise way of highlighted a lot of information without occupying too much space. This hybrid artwork (EPS/TIFF) was combined in Adobe Illustrator and exported as EMF, showing the resolution differences between (a) images with preserved quality and (b) rasterized (bitmap) to a resolution of 150 dpi. 3.1.1 Heading level 3 Body text … Heading level 4 Body text … 3 4. Results 4.1 Heading level 2 Example of table with caption: Tab. 1: Arterial geometrical data of specific segments in the lower-body. Bifurcation numbering are denoted by the right and left side, and tapered vessels by the proximal (D1) and distal (D2) diameters. Segment Name Thoracic aorta B Abdominal aorta E Common iliac External iliac Inner iliac Femoral Deep femoral Posterior tibial Anterior tibial Number Length D1 D2 Right/Left [mm] [mm] [mm] 27 41 42/43 44/50 45/51 46/52 47/53 48/54 49/55 104 20 59 144 50 443 126 321 343 16.5 10.8 7.9 6.4 4.0 5.2 4.0 3.1 2.6 12.9 10.4 7.0 6.1 4.0 3.8 3.7 2.8 2.3 4.1.1 Heading level 3 Body text … Heading level 4 Body text … 4 5. Discussion 5.1 Heading level 2 Body text … 5.1.1 Heading level 3 Body text … Heading level 4 Body text … 5 6. Conclusions Body text … 6 7. Perspectives Body text … 7 References [1] Andersson M, Nadali N H, Schminder J. Report Formatting for Authors, Division of Applied Thermodynamics and Fluid Mechanics, 2015 8 Appendix A A.1 Heading level 2 Body text … A.1.1 Heading level 3 Body text … Heading level 4 Body text … 1 References [1] … 2
