Faculty of Agricultural Engineering ENGINEERING OF AGROENERGETICS

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Faculty of Agricultural Engineering First cycle (bachelor degree) study programme ENGINEERING OF AGROENERGETICS State code 612E30003 Language of the study programme Lithuanian, English, Russian Area

Study mode (length in years) Full-time 4, Part-time 6 Scope of the study programme in credits 240 Beginning of the implementation of the study programme 1992 The last accreditation date and results

1 Faculty of Agricultural Engineering First cycle (bachelor degree) study programme ENGINEERING OF AGROENERGETICS State code 612E30003 Language of the study programme Lithuanian, English, Russian Area and direction (branch) of study Area of Technology Science, Direction of Energy Engineering Cycle of studies First Degree and (or) professional qualification awarded Bachelor of Energy Engineering Study mode (length in years) Full-time 4, Part-time 6 Scope of the study programme in credits 240 Beginning of the implementation of the study programme 1992 The last accreditation date and results of study program Accredited, 2012 The date of last approval of study programme in the Senate of the University In 2011 of June 28, the protocol No. 506 Committee of studies programme: (approved Council Resolution by the Faculty of Agricultural Engineering on April 24, 2013, minutes No. 371(5)) No. Name, Surname Position 1. Kęstutis Navickas ASU, Head of the Institute of Energy and Biotechnology Engineering, President of the Committee of study programme 2. Juozas Bukšnaitis ASU, Professor at the Institute of Energy and Biotechnology Engineering nergetics 3. Ričardas Butkus ASU, Professor at the Institute of Agricultural Engineering and Safety 4. Kęstutis Venslauskas ASU, Associate Professor at the Institute of Energy and Biotechnology Engineering 5. Gvidonas Labeckas ASU, Associate Professor at the Institute of Power and Transport Machinery Engineering 6. Petras Kuzmickas ASU, Lecturer at the Department of Agroenergetics 7. Povilas Brazys ASU, Student at the Faculty of Agricultural Enginering

2 Brief justification of demand of study programme: Lithuanian energy sector is one of the most important in the country, according to their importance, the number of employees (about 14% of industrial workers), the total long term value of the property of energy companies (about 25% of property of all country's enterprises) and size of expenditure, those devoted to purchase imported energy resources. Energetics includes the interrelated issues of energy sectors (electricity, energetics, production and supplyof heat, local resources of fuels and renewable energy), which consists of whole enterprises and equipment for various energy sources of extraction, production, transformation, transmission, distribution and consumption. Recently, energetics strategy of the State of Lithuania is to focus on reform of essential energetics sector and implementation of directives of European Union (EU). Search for new resources of energy and it s using, and new technologies of energetical conversion and creation of energetical systems increase need for specialists with university education of energetics. Local renewable resources of energy are located in rural areas, they can be effectively used in developing both the central and local energy supply and distribution systems. These aims require to improve study programmes and methodical tools to issues of increasing effectiveness of energy consumption, local, renewable and waste resources of energy. Engineering of agroenergetics programme of study gives for graduates the knowledge of the primary sources of energy and its resources, principles of electricity and heat energy production, principles of supply and distribution, tools and systems. Employers are interested in ensuring of this employment of graduates of this study programme in their companies, because specialists are needed for modernization and development of energetics, who are able install energy-saving ways and tools in agricultural technologies, also energetics environmental technologies, with knowledge of energetic equipment and systems design, install renewables, local and waste resources of energy, apply information technologies in the energetics field. Requirements for admission: Secondary Education. Opportunities for career and further studies: Graduates of this study programme are able to work foremen and managers of electricity and thermal power generation, in transmission and distribution companies, in renewable energy plants, in construction and service companies, in energy systems and equipment manufacturing and installation companies; consultants in the public administration and consulting institutions; researchers and lecturers in educational institutions; or independent entrepreneurs. Graduates have the opportunity to study in second cycle studies of engineering of energy field, also there is an opportunity to study in other programmes of masters studies. The aim (aims) of the first cycle of the study programme: The main aim of the study programme is to train broad erudition and highly qualified specialists, aware of the principles, theories and methods of power and heat energy engineering; able to design and implement the facilities and systems of agricultural energetics as well as facilities and systems of renewable energy; assess the impact of energy on the environment objects. I sub-goal of the programme to develop a person s humanist world outlook, broad erudition, critical and creative thinking, civic activity, freedom of communication and responsibility in choosing the values. II sub-goal of the programme to deliver fundamental knowledge of the field of energetics engineering and the related study areas of physics, biomedicine, and technology, which shape theoretical basics of engineering competence; to develop the abilities essential for specialized studies of energetics engineering, related study areas and/or professional activity. III sub-goal of the programme to train special abilities essential in the spheres of professional design, consulting and implementation of work in agricultural and food manufacturing companies, networks of energy production, supply and distribution, companies installing sources of renewable energy and providing energetics engineering services.

3 Links between aims, learning outcomes and study subjects in the study programme: Sub-goals of the study programme The first sub-goal The second subgoal Types of outcomes Knowledge and awareness General abilities Skills Knowledge and awareness General abilities Special abilities Outcomes of the study programme Knowledge essential for the development of a person s wider erudition and better expertise and world outlook based on philosophical, ethical and humanistic principles. Critical thinking, analysis and participation in discussions as well as preparation of special texts in the Lithuanian and a foreign language. Communicating and working independently or in a group. Knowledge of the theoretical basics of engineering sciences, understanding of their significance, purpose and application principles. Knowledge of the construction, purpose, operation and selection principles of agro- and eco-technologies as well as agricultural machinery and equipment. Knowledge of circuits and using fields of electrical, electronics and automatics devices. Knowledge of the primary sources of energy, their resources, usage trends and perspectives in the world and in Lithuania. Application of the knowledge of mathematics, physics, chemistry and other theoretical subjects of the basics of engineering as well as information technologies in solving study-related tasks. Application and combination of different knowledge in order to achieve a rational combination of environmental, human, technical and technological factors. Abilities to observe and measure physical and other properties based on quality or quantity, to analyze and assess their changes. Ability to apply general knowledge and methods of calculation and design in solving engineering problems. Study subjects Philosophy, Lithuanian for Specific Purposes, Foreign Language for Specific Purposes I, Foreign Language for Specific Purposes II, Psychology, Professional Ethics, Management, Technological Practice, Engineering Design Practice. Analytic Geometry and Differential Calculations, Integrals, Differential Equations and Lines, Applied Mathematics, Physics I, Physics II, Chemistry, Engineering Graphics, Information Technologies, Human Safety, Thermodynamics, Material Science and Electrotechnical Materials. Basics of Agronomy and Ecology, Basics of Agricultural Technological Processes, Technological Practice, Engineering Design Practice, Final Paper. Electrical equipment and safety, Technical Mechanins, Theoretical electrical engineering, Metrology and Electrical Measurements, Basics of Electric Circuits Theory, Electronics. Heat Energetics, Electric Energetics. Analytic Geometry and Differential Calculations, Integrals, differential Equations and Lines, Applied Mathematics, Physics 1, Physics 2, Chemistry, Engineering Graphics, Information technologies, Human Safety, Thermodynamics, Material Science and Electrotechnical Materials. Analytic Geometry and Differential Calculations, Integrals, differential Equations and Lines, Applied Mathematics, Physics 1, Physics 2, Chemistry, Engineering Graphics, Information technologies, Human Safety, Thermodynamics, Material Science and Electrotechnical Materials, Basics of Economics, Management, Basics of Law. Analytic Geometry and Differential Calculations, Integrals, differential Equations and Lines, Applied Mathematics, Physics 1, Physics 2, Chemistry, Engineering Graphics, Information technologies, Human Safety, Thermodynamics, Material Science and Electrotechnical Materials. Engineering Graphics, Information technologies, Thermodynamics, Material Science and Electrotechnical Materials, Technical Mechanins, Theoretical electrical engineering, Metrology and Electrical Measurements, Basics of Electric Circuits Theory, Electronics.

4 The third sub-goal Value-based provisions Skills Knowledge and awareness Special abilities Skills Abilities to evaluate characteristics of electricity and thermal equipment performance, choose its for electricity and thermal manufacture, to establish its consumption of energy, economic and energetic efficiency. Abilities to accomplish diagnostics, maintenance works of energetics equipment in objects of agricultural production. Abilities to analyze agricultural technologies and systems, establish needs of energy of equipment and industrial buildings, evaluate energetic efficiency of technological equipment and systems. The skills of planning the actions, searching for various assessment and engineering solutions, spatial thinking and planning. Knowledge of production, supply and distribution principles, tools and systems of electricity and thermal energy. Knowledge of sources and resources of renewable energy. Abilities to apply design methods of equipment and systems of energetics, to carry out projects and evaluate them. Abilities to analyze using opportunities of renewable energy in specific conditions, independently assess and validate rational using methods and measures of renewable energy. Abilities to install resources of renewable energy in agricultural technological processes, evaluate its effectiveness of economic, energetic and environmental. The skills of creating of energetic systems technological schemes, application of its calculation algorithms and methods. A member of the civic society, who is self-confident, understands the importance of self-development and accepts the responsibility for his/her actions and decisions. A creative, tolerant and open-minded person. Electrotechnologies and Lighting of Biosystems, Basics of automated Control, Electrical Machines, Power Electronics, Electric Gears in Agriculture, Basics of Agricultural Technological Processes. Electrotechnologies and Lighting of Biosystems, Basics of automated Control, Electrical Machines, Power Electronics, Electric Gears in Agriculture, Basics of Agricultural Technological Processes. Electrotechnologies and Lighting of Biosystems, Basics of automated Control, Electrical Machines, Power Electronics, Electric Gears in Agriculture, Basics of Agricultural Technological Processes. Design of Energy Systems, Technological Practical Training, Engineering Design Practical Training, Final Paper. Heat Energetics, Electric Energetics, Heat Engines, Electric Systems and Networks in Agriculture. Renewable Energy, Renewable Energy Systems, Geothermal Energy, Solar Energetics, Wind and Water Energetics, Energetics of Biofuels, Biogas Energetics, Energetics of Solid Biofuels. Heat Energetics, Electrotechnologies and Lighting of Biosystems, Design of Energy Systems, Electric Gears in Agriculture, Basics of Agricultural Technological Processes, Electric Systems and Networks in Agriculture. Renewable Energy, Renewable Energy Systems, Geothermal Energy, Solar Energetics, Wind and Water Energetics, Energetics of Biofuels, Biogas Energetics, Energetics of Solid Biofuels. Renewable Energy, Renewable Energy Systems, Geothermal Energy, Solar Energetics, Wind and Water Energetics, Energetics of Biofuels, Biogas Energetics, Energetics of Solid Biofuels. Heat Energetics, Design of Energy Systems, Electric Gears in Agriculture, Electric Systems and Networks in Agriculture, Final Paper. According to specifics of the subject, provided in the syllabus of the subject of the study.

5 No. Syllabus of the first cycle of the study programme of Engineering of Agroenergetics Study subjects, practical trainings Volume ECTS Hrs. Full-time studies Semester GENERAL UNIVERSITY STUDY SUBJECTS (18 CR.) 1. Philosophy Lithuanian for Specific Purposes Foreign Language for Specific Purposes I Foreign Language for Specific Purposes II Psychology Professional Ethics Total x x STUDY FIELD (BRANCH) SUBJECTS, PRACTICAL TRAINING, FINAL ACCOUNTS (200 CR.) 1. Analytic Geometry and Differential Calculation Chemistry Physics Information Technologies Physics Integrals, Differential Equations and Lines Engineering Graphics Material Science and Electrotechnical Materials Electrical equipment and safety (inc. 1 week of practical training) Applied Mathematics Technical Mechanics Theoretical electrical engineering Metrology and Electrical Measurements Basics of Agronomy and Ecology (inc. 1 week of practical training) Basics of Electric Circuits Theory Electronics Thermodynamics Technological Practice Electrotechnologies and Lighting of Biosystems Basics of Automated Control Heat Energetics Electric Energetics Basics of Economic Theory Part-time studies

6 24. Electrical Machines Renewable Energy Design of Energy Systems Basics of Law Management Engineering Design Practice Basics of Agricultural Technological Processes Human Safety Power Electronics Electric Gears in Agriculture Heat Engines Renewable Energy Systems Electric Systems and Networks in Agriculture Final Paper Total x x CORE AND ELECTIVE STUDY SUBJECTS INTENDED FOR DEEPER STUDIES IN THE FIELD OF SPECIALIZATION (BRANCH) AND ELECTIVE STUDY SUBJECTS (22 CR.) Alternative study subject (10 CR. One elective subject per semester) 1. Geothermal Energy Solar Energetics Wind and Water Energetics Energetics of Biofuels Biogas Energetics Energetics of Solid Biofuels Total x x Freely elective subjects (12 CR.) 1. Freely elective subject Freely elective subject Freely elective subject Freely elective subject Total x x Total volume of practical training in the study programme x x Total volume of Bachelor s papers in the study programme x x Total volume of studies x x

7 Number of credits Semester Volume of contact work in hours Volume of self-study work in hours Form of account Extended Syllabus of the first cycle of the study programme of Engineering of Agroenergetics in permanent form Out of them Forms and volume of self-study work (the numerator number of self-study tasks; denominator number of academic hours) Code Study subject P L S Pr Mp N K E Kd (p) R Kr Pl (p) Ps In Ik E Kt Coordinating teacher GENERAL UNIVERSITY STUDY SUBJECTS KEFPB012 Philosophy /16 - Writt.Ex. Lect. R. Garškaitė KEKAB010 Lithuanian for Specific Purposes /6 - Wr. And O. Ex.. Asist. E.Malevičius KEKAB004 Foreign Language for Specific /6 - Wr. And O. Ex.. Assoc. prof. S. (005, 006) Purposes I Statkevičienė, Lect. KEKAB007 Foreign Language for Specific I.Augustaitienė, Lect. S /6 - Wr. And O. Ex.. (008, 009) Purposes II Stankevičienė KEFPB030 Introduction to Psychology /16 - Writt.Ex. Assoc. prof. V. Makauskienė KEFPB029 Professional Ethics /16 - Writt.Ex. Lect. R. Urbaitytė MFITB016 Total volume 18 x /66 - x x STUDY FIELD SUBJECTS, PRACTICAL TRAINING, FINAL ACCOUNTS Analytic Geometry and Differential Calculations The main study field: Engineering of Agroenergetics Study subjects /42 4 Writt.Ex. Assoc. prof. D. Raškinienė MEAEB051 Chemistry /26 6 Writt.Ex. Prof. V. Makarevičienė MFITB073 Physics /21 4 Writt.Ex. Assoc. prof. D. Girdauskienė MFITB037 Information technologies /21 6 Writt.Ex. Lect. G. Masionytė MFITB074 Physics /21 4 Writt.Ex. Assoc. prof. D. Girdauskienė MFITB017 Differential Equations and Lines /37 6 Writt.Ex. Assoc. prof. D. Rimkuvienė VŽHSB001 Engineering Graphics /30 7 Writt.Ex. Assoc. prof. P. Milius IFJTB041 IFEBB001 MFITB018 IFISB037 Material Sience and electrotechnical materials Electrical equipment and safety (with Educational Practice (1,5 cr.)) /16 - Writt.Ex Assoc: prof. A. Žunda /32 21 Writt.Ex Lect. dr. K. Venslauskas Applied Mathematics /32 7 Writt.Ex. Assoc. prof. D. Rimkuvienė Technical Mechanics /21 - Writt.Ex Assoc: prof. A. Pocius

8 IFEBB002 Theoretical electrical engineering /30 5 Writt.Ex. Prof. dr. J. Bukšnaitis IFEBB010 Metrology and Electrical /26 8 Writt.Ex. Lect. V. Župerka Measurements AFADB005 Basics of Agronomy and Ecology Assoc. prof. dr. K /14 20 Writt.Ex. (with Educational Practice (1,5 cr.)) Romaneckas IFEBB003 Introduction to electric circuit /30 6 Writt.Ex Prof. dr. J. Bukšnaitis theory IFEBB004 Electronics /26 8 Writt.Ex Lect. V. Župerka IFEBB018 IFEBB005 IFEBB011 IFEBB012 IFEBB033 IFEBB023 Thermodynamics /26 8 Writt.Ex. Assoc. prof. dr. A.Stepanas Technological practice / Credit-test Lect. dr. K. Venslauskas Electrotechnologies and lighting of biosystems Basics of Automatic Control Engineering /30 12 Writt.Ex Assoc. prof. A.Stašelis /26 14 Writt.Ex Lect. dr. A. Kavolynas Heat energetics /24 6 Writt.Ex Assoc. prof. dr. A. Stepanas Electric energetics Writt.Ex Assoc. prof. dr. K. Navickas EVEAB525 Basic of economics /26 6 Writt.Ex Lecturer V. Vaznonis IFEBB013 IFEBB014 IFEBB024 Electrical machines /30 - Writt.Ex Prof. dr. J. Bukšnaitis Renewable Energy /26 10 Writt.Ex Lect. dr. K. Venslauskas Design of energy systems /21 - Writt.Ex Lect. dr. K. Venslauskas EVVKB010 Basics of Law /16 - Writt.Ex Lecturer D. Perkumienė EVVKB024 Management /21 - Writt.Ex Lecturer V. Pilipavičius IFEBB015 IFEBB009 IFISB011 IFEBB016 IFEBB025 IFJTB011 Engineering design practice / 1/ Credit-test Assoc. prof. dr. K. Navickas Basics of Agricultural Technological Processes /32 8 Writt.Ex Assoc. prof. dr. J. Čėsna Human safety /16 11 Writt.Ex Assoc. prof. dr. R. Butkus Power electronics /21 4 Writt.Ex Lect. Vidmantas Župerka Electric drives in agriculture /30 - Writt.Ex Prof. dr. J. Bukšnaitis Heat Engines /26 8 Writt.Ex Prof. dr. Gvidonas Labeckas

9 IFEBB029 IFEBB030 IFBDB003 Renewable energy systems Writt.Ex Lect. dr. Antanas Kavolynas Electrical systems and networks in agriculture Writt.Ex Assoc. prof. dr. K.Navickas Final work Public defence The head of the final work Total volume 200 x x x x x x 377 x x UNIVERSITY DEFINED AND STUDENT S ELECTIVE SUBJECTS FOR DEEPER SPECIALIZATION IN THE SAME STUDY FIELD, OTHER STUDY FIELDS SUBJECTS, FREELY ELECTIVE SUBJECTS (22 CREDITS) Student s elective subjects for deeper specialization in the same study field (10 cr.) IFEBB026 Geothermal energy /24 7 Writt.Ex Lecturer dr. A. Genutis IFEBB027 Solar energetics /26 9 Writt.Ex Lect. dr. Antanas Kavolynas IFEBB028 Wind and water energetics /26 9 Writt.Ex Lect. dr. Antanas Kavolynas IFJTB013 Energetic of biofuels /26 - Writt.Ex Prof. dr. Gvidonas Labeckas IFEBB031 Biogas energetics /26 - Writt.Ex Assoc. prof. dr. K.Navickas IFEBB061 Solid biofuel energetics /26 8 Writt.Ex Assoc. prof. dr. A. Stepanas Total volume 10 7, x 60 x x x 26 x 92 x 64 x 3/78 33 x x FREELY ELECTIVE SUBJECTS (10 cr.) Total 12 3,4,5, x x 56 x x x x x x x x x x x x x Total volume of practical training in the study programme Total volume of final accounts in the study programme , 4, 6 x x x x x 60 x x x 319 x x x x x x x x x x x x x Total volume of the study programme x x x x x x x x 3267 x x x x x x x x x x x Arbitrary symbols: L lectures; Lab laboratory work S seminars; Pr. practical classes; Tp training practice; D distance teaching; C consultations; E examinationi; Cp(p) course project (paper); R report; Ct - control test; Pl (p) preparation for laboratory work (practical classes) and their defence; Ps - preparation for seminars; It individual task; Ta team (group) assignment; E revision for examination; Sd preparation for training practice and other forms of self-dependent work.