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School of Chemical and Environmental Engineering

Now offering two distinct diplomas: Chemical Engineering and Environmental Engineering

Computer Aided Design

1. COURSE INFORMATION:

School Chemical and Environmental Engineering
Course Level Undergraduate
Direction -
Course ID ENVE 133 Semester 3rd
Course Category Required
Course Modules Instruction Hours per Week ECTS
Lectures and Laboratory assignments 5
Th=2, E=0, L=3
4
Course Type  Scientific Area
Prerequisites  
Instruction/Exam Language Greek
The course is offered to Erasmus students No
Course URL https//www.eclass.tuc.gr/courses/MHPER102/  (in Greek)

 

2. LEARNING OUTCOMES

Learning Outcomes

The course constitutes the basic introductory course on environmental systems using Computer Aided Design in theoretical and practical level.

The theoretical level includes scales, area of rectilinear and curved figures, Cartesian and polar coordinates, contour lines, elevation zones, slopes, incisions and visibility, ground plan, plan and elevation.

The practical level includes usage of CAD, description of the design environment, introduction, file manager, screen management commands, drawing commands, object editing commands, dimensions, marking, insert text, layers and insert block.

2) Upon successful completion of this course the students will acquire new knowledge and specific skills on the following subjects:

  • Will have knowledge of basic and critical characteristics of technical design, with and without the use of computer,
  • Will gain knowledge on design tools and techniques,
  • Will be able to understand the difficulty degree of technical design in a case study and be able to estimate the necessary time for technical design in a project,
  • Will be capable to use the methodologies of technical design for the definition of basic elements, like distance, perimeter, area, slope etc,
  • Can work with his/her colleagues for the creation and presentation of technical plans in a case study, which include, apart from others, ground plans and plans and elevation of the technical work.
General Competencies/Skills
  • Work autonomously
  • Work in teams

3. COURSE SYLLABUS

Theory

  1. Scale
  2. Area of rectilinear figure
  3. Area of curved figure
  4. Cartesian and polar coordinates
  5. Elevation and elevation zone
  6. Slopes
  7. Contour lines
  8. Incisions and visibility
  9. Ground plan
  10. Ground plan
  11. Plan and elevation
  12. Plan and elevation
  13. Revision

 

Exercises

  1. Historical data for the program Autocad
  2. Description of the design environment (environmental tour of Autocad)
  3. Introduction (how to run commands, Drawing units/ limits, procurement before design, setting environmental design (tools <options <display), shortcut menus, function keys, toolbars)
  4. File Manager (open file, create a new file – file without creating settings, file creation using standard file creation using wizard), Save the file, file simultaneous appearance on the screen, close the file, send file with e-mail, file information
  5. Screen management commands (Zoom, Pan, Aerial design, cleaning the screen, display window view, display quality circles and arcs)
  6. Absolute/relative Cartesian coordinates
  7. Drawing commands (line)
  8. Polar coordinates
  9. Precision Mechanisms OSNAPS (endpoint & midpoint)
  10. Design Commands (point, rectangular)
  11. Design Commands (other than Line – point – rectangular), Object editing commands (Erase, Copy, offset, Fillet, Chamfer, move, Trim, Extend, Lengthen)
  12. Object editing commands (Scale, Stretch, Rotate, array, mirror, explode)
  13. Grips (controls), Dimensions, Marking, Insert text, Layers, Insert Block

 

4. INSTRUCTION and LEARNING METHODS - ASSESSMENT

Lecture Method Direct (face to face)
Use of Information and Communication Technology Specialized software, E-class support
Instruction Organisation Activity Workload per Semester
(hours)
- Lectures 26
- Exercises on theory 35
- Lab assignments 39
Course Total 100

Assessment Method

Ι) Written final examination (50%).

- Questions of theoretical knowledge.

- Theoretical problems to be resolved.

ΙΙ. Laboratory exercises (40%).

III. Exercises on theory (10%).

5. RECOMMENDED READING

Textbooks (Eudoxus)

  • Book [12395]: Τεχνική σχεδίαση με το AutoCAD, Bethune James D.
  • Book [77112314]: Τεχνικό Σχέδιο με AUTOCAD, Σαράφης Ηλίας, Τσεμπεκλής Σπύρος, Καζανίδης Ιωάννης, Εκδόσεις ΔΙΣΙΓΜΑ ΙΚΕ.

6. INSTRUCTORS

Course Instructor: Assistant Professor A. Tsouchlaraki (Faculty - ChEnvEng)
Lectures: Assistant Professor A. Tsouchlaraki (Faculty - ChEnvEng)
Tutorial exercises:  
Laboratory Exercises: