Incoming students

 

Vice-Dean for Industrial Cooperation,
dr inż. Robert Kłosowiak
e-mail: foreignISE@put.poznan.pl

Duty hours: room 137, Dean's office Monday 10.00 a.m. - 11.00 a.m.

Coordinators of ERASMUS+ programme:

Institute of Environmental Engineering
Karolina Mazurkiewicz, PhD. Eng., field of study: Environmental Engineering

tel. 61 665 5827
e-mail: karolina.mazurkiewicz@put.poznan.pl
Building of the Faculty of Chemical Technology, Str. Berdychowo 4


Institute of Electrical Power Engineering
Daria Złotecka, PhD. Eng., fields of study: Electrical of Power Engineering, Power Engineering

room , tel. 61 665 2275
e-mail: daria.zlotecka@put.poznan.pl
Building A3

 

Institute of Thermal Energy 
Przemysław Grzymisławski, PhD. Eng., fields of study:Industrial and Renewable Energy, Aerospace Engineering

tel. 61 665 2135
e-mail: przemyslaw.grzymislawski@put.poznan.pl
Building A1

 

 

Dean's Office ERASMUS+: https://zco.put.poznan.pl/pl/

inż. Magdalena Szymańska, tel: 61 665 – 2949

e-mail: magdalena.szymanska(at)put.poznan.pl

lic. Anna Rymska

tel: 61 665 – 2332

e-mail: anna.rymska(at)put.poznan.pl

Duty hours: room 18 (building A1)


Thusday, Thursday 11 a.m.- 5 p.m.
Wednesday, Friday 10.30 a.m. - 2.30 p.m.

Greading scale
Opening hours the Library's
 

Faculty of Environmental Engineering and Energy
List of proposed courses, 1st degree engineering studies in academic year 2022/2023
Institute of Thermal Energy
Semester I (Fall)

Course CodeCourseECTSResponsible personsTeaching methodsInitial knowledge
ErF13Gas engines6dr inż. Michał Gołębiewskilectures 15h, project 15hStudents should have basic information about: thermodynamic, mechanics, fluid mechanics, strength of materials
ErF14Renewable Energy Sources6dr inż. Przemysław Grzymisławskilectures 15h
laboratories 15h
To familiarize students with the basic issues in the field of renewable energy, including renewable energy sources (sun, wind, tides, geothermal energy, water), restrictions and dependencies between sources. In addition, the presentation of equipment for the production of energy from renewable sources along with the principle of operation and construction.
ErF15Heat and Power Technology6dr hab. inż. Rafał Ślefarskilectures 15h, projects 15hBasic knowledge in the field of mechanics, thermodynamics and fluid mechanics and knowledge about construction of energetic machines. Student should also have skills required to solve engineering problems with scientifically valid methodologies. Can effectively acquire the information from various sources including datasheets, literature and Internet.
ErF16Applied thermodynamics6prof. dr hab. inż. Ewa Tuliszka-Sznitkolectures 15h
projects 15h
The knowledge of the thermodynamics (the basic engineering course), fluid mechanics, heat exchange, physics, mathematics.

 

Institute of Electrical Power Engineering
Semester I (Fall)

Course CodeCourseECTSResponsible personsTeaching methodsInitial knowledge
ErF17Generation of electric energy6dr inż. Bartosz Ceranlectures 15h laboratories 15hStudent has a basic knowledge of the basics of energy conversion and energy machine and equipment. He knows the basics of electrical engineering and power engineering. Understand the basic principles of operation of the machines and know the basic construction of conventional energy equipment. Student is aware of the need to expand their skills and readiness to work together as a team.
ErF18Power system protection in distribution grid6dr inż. Bartosz Olejniklectures 15h laboratories 15hBasic knowledge within the scope of electrical engineering, electrical power engineering and electrical power systems and networks. Ability to effective self-studying in the domain connected with chosen course of studying, abilityto use computer simulation to evaluate performance of elements of power system. Has a consciousness of necessity to widen competences and willingness to work in a team.
ErF19Electric power devices and distribution stations6dr inż. Grzegorz Dombeklectures 10h laboratories 20hStudent has a basic knowledge of the basics of energy conversion and energy machine and equipment. He knows the basics of electrical engineering and power engineering. Understand the basic principles of operation of the machines and know the basic construction of conventional energy equipment. Student is aware of the need to expand their skills and readiness to work together as a team.
ErF20High voltage engineering.docx6dr hab. inż. Piotr Przybyłeklectures 10h laboratory 20hStudent starting this course:
1) has knowledge in the frame of construction of electric al machines and their insulation
systems and materials used for their construction
2) has knowladge concerning the laws regarding the theory of electrical circuits
3) can build simple electrical setup and conduct the measurements of basic physical quantities
4) is aware of the need to broaden his/her competence in the field of electrical engineer's work
5) is aware of the responsibility related to work within the team.

 

Institute of Environmental Engineering and Building Installations
Semester I (Fall)

Course CodeCourseECTSResponsible personsTeaching methodsInitial knowledge
ErF12Infrastructure Asset Management and Urban Planning6Jędrzej Bylka, Ph.D.Lectures 15h Tutorials 15 h1) Knowledge: Basic knowledge of the design and operation of water, sewage, and remote heating systems.
2) Skills: Appreciation of external conditions for development and analyses of engineering solutions in their socio-economic, geopolitical and historical contexts.
3) Social competencies: Awareness of the need for continuous updating and expanding knowledge and skills, including team cooperation
ErF11Sewerage systems I6Karolina Mazurkiewicz, Ph.D.

Lectures 15h

Projects 15h

1) Knowledge: Mathematic (trigonometric functions; formulas of: cross sections, perimeters and volumes for geometric figures; mathematical transformations).
Fluid mechanics (uniform flows in open channels, Chezy formula).
2)Skills: Acquaintance of basic terminology in area of environmental engineering. Self-education ability.
3) Social competencies Awareness of the need to constantly update and supplement knowledge and skills
ErF10Water supply systems6Wojciech Góra, Ph.D.

Lectures 15h

Projects 15h

Basic knowledge of hydraulics and fluid mechanics

 

Institute of Thermal Energy
Semester II (Spring)

Course CodeCourseECTSResponsible personsTeaching methodsInitial knowledge
ErS15Programming in data analysis6dr inż. Przemysław Grzymisławskilectures 10h, laboratories 20hThe student has basic knowledge of the basics of computer science, data analysis and Python environment
ErS16Environmental engineering6dr hab. inż. Rafał Ślefarskilectures 15h laboratories 15hBasic knowledge of thermodynamics, mathematics and biology. Has the knowledge of the surrounding environment and the construction of power machines. Can solve engineering problems with the use of scientific methods and find relevant information in literature, on the Internet, in data bases, and in other sources .
ErS17Gas turbines6dr hab. inż. Rafał Ślefarskilectures 15h laboratories 15hBasic knowledge from thermodynamics, fluid mechanics, mechanics, and construction of energetic engines. Can use the scientific method for problem solving, experimenting, and making conclusions .
ErS18Biogas Plants and Thermal biomass processing6dr inż. Przemysław Grzymisławskilectures 15h
laboratories 15h
The student has basic knowledge In the field of chemistry, physics and thermodynamics

 

Institute of Electrical Power Engineering
Semester II (Spring)

Course CodeCourseECTSResponsible personsTeaching methodsInitial knowledge
ErS19Preparation for energy companies operating in the market6dr inż. Justyna Michalaklectures 30hStudent has knowledge in the scope of enterprise and knows the basic principles of economy. Student knows how to determine relations between market enterprises. He can to determine profitabilityof power enterprises on market. Student accept readiness to start collective work and to take a decision
ErS20Fundamentals of Control Theory for Power Engineers6dr inż. Andrzej Kwapiszlectures 10h
laboratories 10h
projects 10h
Has knowledge about mathematics and selected physics sections (optics, mechanics, electricity, magnetism). Has knowledge about signal theory and methods of it's processing in time and frequency domain. Is able to describe selected physical phenomena with mathematical apparatus. Is able to approve himself in new knowledge acquisition.
ErS21Low voltage installations and building automation6dr inż. Grzegorz Dombeklectures 10h
laboratory 20h
Basic knowledge of electrical devices as well as ergonomics and safety of their use, electrical engineering, mathematics, physics, automation and computer science. Ability to perform mathematical analysis of simple electrical circuits and reading electrical diagrams. Awareness of the need to expand their competences, readiness to cooperate within a team.
ErS22Overvoltages and insulation coordination in transmission systems6dr hab. inż. Krzysztof Walczaklectures 15h
Laboratory 15h
Student has a basic knowledge of electrical engineering, power engineering and metrology. Student can assemble the measurement system, can carry out measurements of basic physical quantities and elaborate obtained results. Student is able to work in a group and understands the importance of teamwork.

 

Institute of Environmental Engineering and Building Installations
Semester II (Spring)

Course CodeCourseECTSResponsible personsTeaching methodsInitial knowledge 
ErS10Energy Efficient Buildings6Joanna Sinacka, Ph.D.Lectures 10h
Projects 20h
Basics of architectural design, basics of building physics and general construction. Skills in the ability to assess phenomena in the field of heat transfer in buildings and operating computer programs including Excel, Word, SketchUp. 
ErS9Energy management6Prof. Tomasz MrózLectures 20 h
Tutorials 10 h
Basic knowledge of thermodynamics (energy, exergy and substantial balances) as well as of elementary economics (costs, profits, economy efficiency measures). 
ErS8Fluid Mechanics 16Prof. Janusz WojtkowiakLectures 20h
Tutorials 10h
Mathematics: algebra - functions, equations and inequalities, plane and space geometry, plane and space geometry, trigonometry, analytic geometry, equations and systems of equations, elements of differential and integral calculus of functions of one variable.
Physics: fundamental lows of physics, rules of mass momentum and energy conservation in classical mechanics, statics, kinematics, dynamics of solid body, hydraulics.
 
ErS23Thermal Engineering I6Prof. Janusz WojtkowiakLectures 20h
Projects 10h
1) Knowledge: Mathematics: algebra, functions, equations and inequalities,
trigonometry, analytic geometry, systems of equations,
fundamentals of differential and integral calculus,
ordinary and partial differential equations -
basic information of solving methods.
Physics: statics, kinematics, dynamics,
conservation laws in physics, fundamentals of fluid mechanics.
2) Skills: Analysis and solving of equations and systems
of equations, mathematical formulation of
engineering problems, solving of simple differential
equations, application of integral calculus
3)Social competencies Awareness of the need of
permanent updating and supplementing knowledge
and engineering skills.
 
ErS14Water management6Wojciech Góra, Ph.D.
Karolina Mazurkiewicz, Ph.D.

Lectures 15h

Projects 15h

1) Knowledge:
Fluid Mechanics, Water Supply, Sewerage, Water Technology and Wastewater Technology at basic level. Environmental Chemistry and Environmental Biology: water chemistry, the processes of pollutants biodegradation at basic level.
2) Skills:
Application of knowledge of the above mentioned subjects. Acquiring knowledge from the literature, electronic resources and databases. The ability to self-education, the ability to conceptual thinking and reasoning.
3) Social competencies:
Awareness of the need to constantly update and supplement knowledge and skills.