Thermal-Engineering Bases of Energy-chemical Technologies of Polymer Synthesis

Major: Chemical Technologies of Polymeric and Composite Materials Processing
Code of subject: 7.161.06.E.046
Credits: 5.00
Department: Chemical Technology of Plastics Processing
Lecturer: Associate professor Bratychak Mykhaylo Mykhaylovich
Semester: 2 семестр
Mode of study: денна
Learning outcomes: • the basic principles of thermodynamic analysis and practical skills of its use, necessary for the creation and operation of specific chemical and technological systems of varying degrees of complexity • carry out thermal calculations, which consist in determining the amount of heat that must be brought or taken away to carry out the process, in calculating the heat transfer propensity, as well as in determining the costs of heat carriers and refrigerants for the synthesis and processing of polymers;
Required prior and related subjects: • Physics, • Processes and apparatuses of the chemical industry, • Heat engineering
Summary of the subject: The main provisions and theoretical foundations of heat transfer processes, methods of heat exchange between heat carriers, usually separated by a wall are outlined. Constructions, structure and methods of technological calculation of heat exchangers, equipment and installations using heat - furnace units, evaporative and refrigeration units, cooling towers are considered. This sequence of teaching material is due to the specificity of the training of specialists in chemical production. This specificity consists in the fact that the future specialist should be not only well acquainted with the theoretical bases of the process, as well as be able to perform calculations as individual stages, and the process as a whole, be able to calculate and choose the right device. Simultaneously with the presentation of the theoretical foundations of heat transfer and heat transfer processes in the course of the course, the main attention is paid to the methods of technological calculation of heat exchange processes and equipment for their implementation.
Assessment methods and criteria: • written reports on laboratory work, oral examination (20%) • the final assessment (80% control measure, exam), written-oral form (80%)
Recommended books: 1. Теплотехника. Под ред. А.П. Баскакова. М., Энергоиздат, 2007. –224 с. 2. Бродянский В.Н. Эксергетический метод термодинамического анализа. М., Энергия, 2003. –246с. 3. Годовский Ю.К. Теплофизика полимеров. М., Химия, 2002. –280 с. 4. Бортников В.Г. Основы технологии переработки пластических масс. Л., Химия, 1983. –304 с. 5. Сафронов В.С. Принципы построения и анализ эфективности химико-энергетических систем. Куйбышев, КПИ, 1984. –92 с. 6. Веселов В.А. Оборудование для переработки пластических мас в изделия. Тепловые расчеты. М., Машгиз., 2003. –212 с. 7. ПивеньА.И., ГречанаяП.А., Теплофизические своиства полимерных материалов. Справочник. Киев, В. школа, 1996. –180 с. 8. ПавловК.Ф.,Романков П.Г. Примеры и задачи по курсу процессов и аппаратов химической технологии. Учебное пособие для вузов. Л., Химия, 1997. –576 с.