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Heat-mass Exchange Machines of Industrial Enterprises
Major: Heat and power engineering
Code of Subject: 6.144.02.E.76
Credits: 4
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: Associate professor, Tymofyeyev Igor Leonidovych
Semester: 5 семестр
Mode of Study: денна
Learning outcomes:
• to know the types and classification of the main types of fluids and structures and major thermal heating plants;
• to know the sequence design and thermal calculation apparatus surface type, calculating machines for strength;
• to be able to perform design and thermal calculation of thermal heating devices, choose the design dimensions of technological apparatus to perform the calculation system strong;
• be able to analyze the quality of the plants.
• to know the sequence design and thermal calculation apparatus surface type, calculating machines for strength;
• to be able to perform design and thermal calculation of thermal heating devices, choose the design dimensions of technological apparatus to perform the calculation system strong;
• be able to analyze the quality of the plants.
Required prior and related subjects:
prerequisites
• Engineering Thermodynamics;
• Heat-mass Exchange;
co-requisites
• Heat Engines of Industrial Enterprises;
• Secondary Energy Resources of Industrial Enterprises.
• Engineering Thermodynamics;
• Heat-mass Exchange;
co-requisites
• Heat Engines of Industrial Enterprises;
• Secondary Energy Resources of Industrial Enterprises.
Summary of the subject:
Main types and classification of heat and mass transfer processes and devices. The main types of heat exchangers. Regenerative heat exchangers, regenerative heat exchangers and heat exchangers confusing type. The basic design of the scheme and the calculation. The heat balance. Sequence design of heat exchangers. Inkjet heat exchangers. Evaporators. The process of evaporation. Flow charts evaporation plants. Distillation and distillation plant. The processes of distillation schemes and basic facilities. Absorption and adsorption processes and installation. The basic concept of the drying process, forms of communication drying moisture from the material. Kinetics of drying. The basic types and design schemes dryers and plants. Heat pump. Refrigerators and basic processes that occur in them.
Recommended Books:
1. Kulinchenko V.R., Myronchuk V.H. Vyparyuvannya i vyparni aparaty u rozrakhunkakh i konstruyuvanni.: Navch. posibnyk. – K.: Kondor, 2006. – 392s. (in Ukrainian)
2. Chepurnyy M.M. Rozrakhunky teplomasoobminnykh aparativ / M.M. Chepurnyy, S.Y.Tkachenko – Vinnytsya: VNTU, 2006. – 129 s. (in Ukrainian)
3. Bozhenko M.P. Dzherela teplopostachannya ta spozhyvachi teploty: Navch. posibnyk /M.P.Bozhenko, V.P.Salo. – Kyyiv: Politekhnika, 2004. – 192 s. (in Ukrainian)
4. Ivanchenko V.V., Barvin O.I., Shtonda YU.M. Konstruyuvannya ta rozrakhunok kozhukhotrubchastykh teploobminnykh aparativ. – Luhans?k: Vyd-vo SNU im. V.Dalya. – 2006. – 208s. (in Ukrainian)
2. Chepurnyy M.M. Rozrakhunky teplomasoobminnykh aparativ / M.M. Chepurnyy, S.Y.Tkachenko – Vinnytsya: VNTU, 2006. – 129 s. (in Ukrainian)
3. Bozhenko M.P. Dzherela teplopostachannya ta spozhyvachi teploty: Navch. posibnyk /M.P.Bozhenko, V.P.Salo. – Kyyiv: Politekhnika, 2004. – 192 s. (in Ukrainian)
4. Ivanchenko V.V., Barvin O.I., Shtonda YU.M. Konstruyuvannya ta rozrakhunok kozhukhotrubchastykh teploobminnykh aparativ. – Luhans?k: Vyd-vo SNU im. V.Dalya. – 2006. – 208s. (in Ukrainian)
Assessment methods and criteria:
• formative assessment (30%): written reports on laboratory works, recitation;
• summative assessment (70%, examination): control activities.
• summative assessment (70%, examination): control activities.
Heat-mass Exchange Machines of Industrial Enterprises (курсовий проект)
Major: Heat and power engineering
Code of Subject: 6.144.02.E.77
Credits: 3
Department: Heat Engineering and Thermal and Nuclear Power Plants
Lecturer: assistant of professor Yalechko Volodymyr Ivanovych
Semester: 5 семестр
Mode of Study: денна
Learning outcomes:
- to know the classification of heat and mass exchanger devices;
- to know the types and classification of the main heat transfer fluids, the types and constructions of the major heat and mass exhanger devices;;
- to know the sequence of the design and thermal calculation of the heat and mass transfer devices, calculating devices on strength;
- be able to perform design and heat calculation of heat and mass transfer devices, choose the dimensions of the technological devices, perform calculation of device on strength;
- able to analyze the quality of work of the installations.
- to know the types and classification of the main heat transfer fluids, the types and constructions of the major heat and mass exhanger devices;;
- to know the sequence of the design and thermal calculation of the heat and mass transfer devices, calculating devices on strength;
- be able to perform design and heat calculation of heat and mass transfer devices, choose the dimensions of the technological devices, perform calculation of device on strength;
- able to analyze the quality of work of the installations.
Required prior and related subjects:
prerequisites:
• Higher mathematics,
• Physics,
• Technical Thermodynamics,
• Heat and Mass Transfer,
• Heat and mass exchanger devices of industrial enterprises.
• Higher mathematics,
• Physics,
• Technical Thermodynamics,
• Heat and Mass Transfer,
• Heat and mass exchanger devices of industrial enterprises.
Summary of the subject:
Calculate and design the heat exchangers of industrial enterprises namely: horizontal, vertical, tubular, spiral, plate type (perform their thermal, hydraulic, constructive calculations, pick up thermal insulation).
Calculate and design the heat and mass transfer devices of industrial enterprises (perform their thermal, hydraulic, constructive calculations).
Recommended Books:
1. Kulinchenko V.R., Myronchuk V.H. Vyparyuvannya i vyparni aparaty u rozrakhunkakh i konstruyuvanni.: Navch. posibnyk. – K.: Kondor, 2006. – 392 p.
2. Chepurnyy M.M. Rozrakhunky teplomasoobminnykh aparativ / M.M. Chepurnyy, S.Y.Tkachenko – Vinnytsya: VNTU, 2006. – 129 p.
3. Ivanchenko V.V., Barvin O.I., Shtonda YU.M. Konstruyuvannya ta rozrakhunok kozhukhotrubchastykh teploobminnykh aparativ. – Luhans?k: Vyd-vo SNU im. V.Dalya. – 2006. – 208 p.
4. Ilchenko O.T. Teploispolzuyushchiye ustanovki promyshlennykh predpriyatiy. – Kharkov. – Vysshaya shkola, 1985.
5. Kasatkin A.G. Osnovnyye protsessy i apparaty khimicheskoy tekhnologii. - L. - Khimiya, 1973 – 754 p.
6. Shepetilnikov M.I. i dr. Raschet teploobmennogo oborudovaniya teplovykh elektrostantsiy. – Ivanovo, 1979.
7. Tablytsi teplofizychnykh vlastyvostey vody i vodyanoyi pary: Dovidkovyy material / Ukl.: I.M. Chepyshko, S.H. Yaholnyk, M.YA. Kuznetsova. – Lviv: Vydavnytstvo Lvivskoyi politekhniky, 2012. – 48 p.
2. Chepurnyy M.M. Rozrakhunky teplomasoobminnykh aparativ / M.M. Chepurnyy, S.Y.Tkachenko – Vinnytsya: VNTU, 2006. – 129 p.
3. Ivanchenko V.V., Barvin O.I., Shtonda YU.M. Konstruyuvannya ta rozrakhunok kozhukhotrubchastykh teploobminnykh aparativ. – Luhans?k: Vyd-vo SNU im. V.Dalya. – 2006. – 208 p.
4. Ilchenko O.T. Teploispolzuyushchiye ustanovki promyshlennykh predpriyatiy. – Kharkov. – Vysshaya shkola, 1985.
5. Kasatkin A.G. Osnovnyye protsessy i apparaty khimicheskoy tekhnologii. - L. - Khimiya, 1973 – 754 p.
6. Shepetilnikov M.I. i dr. Raschet teploobmennogo oborudovaniya teplovykh elektrostantsiy. – Ivanovo, 1979.
7. Tablytsi teplofizychnykh vlastyvostey vody i vodyanoyi pary: Dovidkovyy material / Ukl.: I.M. Chepyshko, S.H. Yaholnyk, M.YA. Kuznetsova. – Lviv: Vydavnytstvo Lvivskoyi politekhniky, 2012. – 48 p.
Assessment methods and criteria:
• current control (30%): performing a course project, oral questioning.
• final control (70%, differentiated test): defense of the course project.
• final control (70%, differentiated test): defense of the course project.