1. As a result of studying the discipline, the specialist must know the theoretical foundations and possibilities of using CAD in the design of apparatuses and technological processes in chemical technology based on the AutoCad package.
2. A trained specialist should be able to work practically with two- and three-dimensional AutoCad graphic systems.

Informatics
Engineering graphics
Processes and apparatuses of chemical technology

1. Features of 3D modeling of chemical equipment in the AutoCad system. 2. Interactive view of projected models of basic apparatuses of chemical production in three-dimensional space. 3. Creation of surfaces in three-dimensional space for the main apparatuses of chemical production. 4. Principles of creating three-dimensional grids and editing frame surfaces in the simulation of chemical equipment. 5. Solid-state modeling of chemical production equipment in the AutoCad system. 6. Features of using building and editing commands in 3D space. 7. Additional teams of solid-state simulation of chemical equipment in the AutoCad system. 8. Toning of projected objects of equipment of chemical production in three-dimensional space. 9 Types of toning, tinting process and its team. 10 Techniques for toning models of chemical equipment. 11 Implementation of three-dimensional assembly drawing of projected objects of equipment of chemical production in the environment of the graphic system AutoCad. 12. Three-dimensional design of complex chemical equipment. 13. 3D design of shell and tube heat exchangers in the AutoCad system. 14. 3D design of plate heat exchangers in the AutoCad system. 15. 3D design of heat exchangers such as "tube in a pipe" in the AutoCad system. 16. Three-dimensional design of evaporators with natural circulation in the AutoCad system. 17. Three-dimensional design of evaporating machines with forced circulation and a rendered heating chamber in the AutoCad system. 18 .Three-dimensional design of evaporating machines with ascending film and film flowing in the AutoCad system. 19. 3D design of columnar apparatus in the AutoCad system. 20. Three-dimensional design of a distillation column in the AutoCad system. 21. 3D design of absorbers and adsorbers in the AutoCad system. 22. 3D designing of gas equipment (cyclone machines) in the AutoCad system. 23. Three-dimensional design of drum machines in the AutoCad system. 24. 3D designing crushers in the AutoCad system.

1. Antonovich Ye.A. Drawing: a textbook / Ye.A. Antonovich, Ya.V. Vasilishin, VA Shpilchak; edited by Professor E. A. Antonovich. - Lviv: World, 2006. - 512 p. Il.
2. Engineering Computer Graphics: Teach. manual / R. A. Shmig, V. M. Boyarchuk, I. M. Dobryansky, V. M. Barabash; per community Ed. R. A. Shmiha. - Lviv: Ukrainian Bestseller, 2012. - 600 p.
3. Mikhailenko V.E., Vanin V.V., Kovalyov S.М. Engineering and Computer Graphics: Textbook / Ed. V.E. Mikhailenko - K.: Caravela, 2010. - 360 p.
4. I.P. Norenkov. Basics of automated design. -M .: Publishing MGTU them. Baumana, 2003.
5. B. Barchard, D. Pitzer. AutoCad's internal world. - To: DIA Software, 2000.

• reports on laboratory and practical work, oral questioning (30%)
• final control (70%, control measure, exam): writing-oral form (70%)

1. As a result of studying the discipline, the specialist must know the theoretical foundations and possibilities of using CAD in the design of apparatuses and technological processes in chemical technology based on the AutoCad package.
2. A trained specialist should be able to work practically with two- and three-dimensional AutoCad graphic systems.

Informatics
Engineering graphics
Processes and apparatuses of chemical technology

1. Features of 3D modeling of chemical equipment in the AutoCad system. 2. Interactive view of projected models of basic apparatuses of chemical production in three-dimensional space. 3. Creation of surfaces in three-dimensional space for the main apparatuses of chemical production. 4. Principles of creating three-dimensional grids and editing frame surfaces in the simulation of chemical equipment. 5. Solid-state modeling of chemical production equipment in the AutoCad system. 6. Features of using building and editing commands in 3D space. 7. Additional teams of solid-state simulation of chemical equipment in the AutoCad system. 8. Toning of projected objects of equipment of chemical production in three-dimensional space. 9 Types of toning, tinting process and its team. 10 Techniques for toning models of chemical equipment. 11 Implementation of three-dimensional assembly drawing of projected objects of equipment of chemical production in the environment of the graphic system AutoCad. 12. Three-dimensional design of complex chemical equipment. 13. 3D design of shell and tube heat exchangers in the AutoCad system. 14. 3D design of plate heat exchangers in the AutoCad system. 15. 3D design of heat exchangers such as "tube in a pipe" in the AutoCad system. 16. Three-dimensional design of evaporators with natural circulation in the AutoCad system. 17. Three-dimensional design of evaporating machines with forced circulation and a rendered heating chamber in the AutoCad system. 18 .Three-dimensional design of evaporating machines with ascending film and film flowing in the AutoCad system. 19. 3D design of columnar apparatus in the AutoCad system. 20. Three-dimensional design of a distillation column in the AutoCad system. 21. 3D design of absorbers and adsorbers in the AutoCad system. 22. 3D designing of gas equipment (cyclone machines) in the AutoCad system. 23. Three-dimensional design of drum machines in the AutoCad system. 24. 3D designing crushers in the AutoCad system.

1. Antonovich Ye.A. Drawing: a textbook / Ye.A. Antonovich, Ya.V. Vasilishin, VA Shpilchak; edited by Professor E. A. Antonovich. - Lviv: World, 2006. - 512 p. Il.
2. Engineering Computer Graphics: Teach. manual / R. A. Shmig, V. M. Boyarchuk, I. M. Dobryansky, V. M. Barabash; per community Ed. R. A. Shmiha. - Lviv: Ukrainian Bestseller, 2012. - 600 p.
3. Mikhailenko V.E., Vanin V.V., Kovalyov S.М. Engineering and Computer Graphics: Textbook / Ed. V.E. Mikhailenko - K.: Caravela, 2010. - 360 p.
4. I.P. Norenkov. Basics of automated design. -M .: Publishing MGTU them. Baumana, 2003.
5. B. Barchard, D. Pitzer. AutoCad's internal world. - To: DIA Software, 2000.

• reports on laboratory and practical work, oral questioning (30%)
• final control (70%, control measure, exam): writing-oral form (70%)