ECTS
ECTS Course Catalogue

Course details
Course code: OŹES10028o16
Semester: 2016/2017 winter
Name: Design Engineering II
Major: Renewable Energy and Waste Management
Study Type: first cycle
Course type: compulsory
Study Semester: 5
ECTS points: 3
Hours (Lectures / Tutorials / Other): 15 / 30 / 0
Lecturer: Dr hab. inż. Roman Stopa
Language of instruction: Polish


Learning outcomes: Knowledge: He knows the basic principles of construction of renewable energy generation, knows the rules of calculation of machine elements connections for energy transfer. He has knowledge of the principles of choice rolling bearings, glands, etc. Himself screw mechanism performs design, machine shafts. Has knowledge of a belt transmission calculations, friction, chain and gear. Knows the basic principles of construction machinery, has knowledge of the reasons for failure of machine parts, has knowledge including principles calculations connections of machines, Himself designs simple technical devices, including screws, shafts, keys, and basic types of gear. Skills: know how to properly choose the basic principles of technology selected assemblies, knows how to determine the defect causes assemblies, can develop documentation on the engineering task. Able to perform and correctly read construction drawings of machine parts, can individually construct the basic elements of machines can practically apply that knowledge to the design of machines in the field of waste management and renewable energy sources, such as clutches and gears selected.

Competences: Is aware of impact of the activities an engineer specializing in renewable energy and waste management on the environment and on the quality of people's lives. Understands the need to acquire knowledge in the design of simple devices in the context engineering activities. Able to take responsibility for decisions made on behalf of the team and perform some of the task-design related with simple mechanical devices used for production and transmission of renewable energy and waste treatment.

Prerequisites: Engineering drawing, mechanics and strength of materials, materials science.

Course content: Strength calculation of inseparable and disjoint connections. Characteristics of shafts and axles and the construction of the contour of equal strength shafts. The principle of constant hole and continuous shaft in the selection of fits. Friction and lubrication of in slide bearings. Types and construction of rolling bearings, bearing building rules, the selection of bearings. Design and calculation rules of disjoint and inseparable couplings. Construction and engineering calculations of belt, friction and chain transmission. Design calculation of helical gear with straight and slanted teeth Correction gears. Distribution of forces for gears with straight and slanted teeth. Types of tooth profiles, distribution of forces, the dimensions of bevel gear selection. Characteristics of a worm gear characteristic sections and angles. Lubrication of machine elements, hydrodynamic and hydrostatic lubrication.

Recommended literature: 1. Dziama A.: Metodyka konstruowania maszyn, PWN, Warszawa 1985. 2. Osiński Z.: Podstawy konstrukcji maszyn, PWN Warszawa 2003. 3. Dietrych, Korewa i inni: Podstawy konstrukcji maszyn, cz. I, II i III, WNT wydanie III, Warszawa 2006r. 4. Lawrowski Z.: Ćwiczenia z podstaw konstrukcji maszyn , Wydawnictwo Politechniki Wrocławskiej 5. Mazanek E.: Przykłady obliczeń z podstaw konstrukcji maszyn , tom I i II, WNT Warszawa 2005r. 6. Rutkowski A.: Części Maszyn. Warszawa WSiP 2007r. Rutkowski A., Stępniewska A.: Zbiór zadań z części maszyn. Warszawa WSiP 2007r. 7. Patkowski I.: Zbiór zadań z części maszyn, Wydawnictwo AR w Lublinie. 8. Patkowski I.: Przewodnik do ćwiczeń projektowo – konstrukcyjnych z części maszyn, Wydawnictwo AR w Lublinie

Assessment methods: Knowledge: Written exam - possible exemption from the exam. Skills: Completion of projects, Social competence: Ocena poprawności doboru źródeł informacji oraz poszanowanie do praw autorskich

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