Technical thermodynamics Field of study: Materials Science and Engineering
Programme code: 08-S1MA12.2018

Module name: Technical thermodynamics
Module code: IM1A_TERM
Programme code: 08-S1MA12.2018
Semester: summer semester 2018/2019
Language of instruction: Polish
Form of verification: course work
ECTS credits: 3
Description:
The Technical thermodynamics module familiarises students with basic methods and mechanisms of thermal energy generation and its conversion during thermodynamic cycles. Students gain knowledge about basic energy issues, energy balances and carriers, and also about possibilities to use unconventional energy sources and the energy equipment used in materials engineering.
Prerequisites:
It is required to achieve effects of education of physics and chemistry modules.
Key reading:
1. Jan Szargut, Termodynamika techniczna, Wyd. Pol. Śląskiej, Gliwice 2005 2. Jan Madejski, Termodynamika techniczna, Wyd. Pol. Rzeszowskiej, Rzeszów 2000 3. Cecylia Malinowska-Adamska, Zbiór zadań z fizyki z rozwiązaniami – dynamika płynów, fizyka cząsteczkowa i termodynamika, Wyd. Pol. Łódzkiej, 1993 4. Zadania z termodynamiki procesowej, skrypt PŁ, Wyd. Łódź 1991
Learning outcome of the module Codes of the learning outcomes of the programme to which the learning outcome of the module is related [level of competence: scale 1-5]
Understanding basic notions and definitions of the technical thermodynamics and also of relationships between heat and work, capability to determine energy balances. [IM1A_TERM_1]
 IM1A_W02 [1/5] IM1A_W04 [5/5] IM1A_K05 [1/5]
Students can use the learned thermodynamic models for the materials engineering needs. [IM1A_TERM_2]
 IM1A_U10 [2/5] IM1A_K05 [1/5]
Type Description Codes of the learning outcomes of the module to which assessment is related
Written test [IM1A_TERM_w_1]
Checking the understanding of basic notions and definitions, relationships between heat and work, energy balances.
 IM1A_TERM_1 IM1A_TERM_2
Test [IM1A_TERM_w_2]
Assessment of mastering the basic knowledge necessary to perform an individual engineering project.
 IM1A_TERM_1 IM1A_TERM_2
Form of teaching Student's own work Assessment of the learning outcomes
Type Description (including teaching methods) Number of hours Description Number of hours
lecture [IM1A_TERM_fs_1]
The lecture, enhanced with demonstrations, is delivered with the use of multimedia.
 30
The work with the recommended literature comprising independent acquisition of knowledge related to basic issues.
 35 Written test [IM1A_TERM_w_1]
practical classes [IM1A_TERM_fs_2]
Classes verifying the mastering of basic notions of thermodynamics, delivered based on discussion and problems solving.
 15
Preparation to classes through independent studying of recommended issues.
 15 Test [IM1A_TERM_w_2]
Attachments
Module description (PDF)
Information concerning module syllabuses might be changed during studies.
Syllabuses (USOSweb)
Semester Module Language of instruction
(no information given)