MODULE DESCRIPTION Module code Module name Odnawialne źródła energii Module name in English Renewable Energy Resources Valid from academic year 2012/201 MODULE PLACEMENT IN THE SYLLABUS Subject Level of education Studies profile Form and method of conducting Specialisation Unit conducting the module Module co-ordinator Energetics 1 st degree (1st degree / 2nd degree) General (general / practical) Full-time (full-time / part-time) The Department of Power Engineering Electronics Andrzej Stobiecki, PhD, Eng. Jarosław Rolek, PhD, Eng. Approved by: MODULE OVERVIEW Type of subject/group of subjects Module status Language of conducting Module placement in the syllabus - semester Subject realisation in the academic year Initial requirements Examination Number of ECTS credit points Major (basic / major / specialist subject / conjoint / other HES) Compulsory (compulsory / non-compulsory) Polish th semester Winter semester (winter / summer) Renewable Power Engineering and Environmental Protection (module codes / module names) Yes (yes / no) Method of conducting Lecture Classes Laboratory Project Other
Per semester 0 0 TEACHING RESULTS AND THE METHODS OF ASSESSING TEACHING RESULTS Module target The aim of the subject is to acquaint students with: basic types of renewable energy resources, assessing potential renewable energy resources, analysing possible application of renewable energy resources (together with their utilisation for heating purposes as well as generating electric energy). Effect symbol Teaching results Teaching methods (l/c/l/p/other) Reference to subject effects Reference to effects of a field of study U_0 A student has knowledge as regards the types of renewable energy resources which is useful in formulating and solving tasks as regards power engineering. A student is able to explain the parameters of energy obtained from renewable energy resources. A student identifies possible applications of renewable energy resources for the needs of energy technical objects. A student can analyse energy resources from any possible renewable energy resource. A student can conduct experiments which allow assessing parameters of renewable energy resources. A student is able to prepare a report from the conducted experiment and draw the necessary conclusions as regards testing the selected renewable energy resources. A student understands the necessity of applying renewable energy resources to satisfy the demands for energy. A student is aware of the necessity concerning the application of renewable energy resources with respect to international commitments. K_W1 K_W1 K_W1 K_W1 K_W1 K_W1 K_U1 K_U04 K_U04 K_U1 K_K02 K_K0 K_K04 K_K07 T1A_W01 T1A_W0 T1A_W02 T1A_W04 T1A_W0 T1A_W06 T1A_W07 T1A_U01 T1A_U0 T1A_U0 T1A_U0 T1A_U07 T1A_U0 T1A_U0 T1A_U1 T1A_K02 T1A_K0 T1A_K04 T1A_K07 Teaching contents: Teaching contents as regards lectures Lecture number Teaching contents 1 Introduction to the subject, literature on the subject. The division of renewable energy resources. 2 Renewable energy resources in national energy balances. 4 The potential of solar radiation energy; the Sun as energy source on Earth. Active and passive systems of utilising solar radiation energy. Reference to teaching results for a module
6 7 10 11 12 1 The resources of solar radiation energy in the selected region of Poland. Energy from photovoltaic cells. Sample installations utilising solar radiation energy. The characteristics of utilising water energy, power, and water energy. Hydroelectric potential of a river; the types of hydroelectric power stations. Wind energy and the methods of utilising it. Assessment methods as regards wind energy. Biomass its types and possible applications. Liquid and solid biofuels. 14 Hydrogen power engineering; the characteristics of hydrogen as fuel. Generating hydrogen. 1 Utilisation of hydrogen in fuel cells. Utilisation of municipal waste for energy purposes. Teaching contents as regards laboratory Laboratory class number Teaching contents Reference to teaching results for a module 1 Introduction to the subject; literature on the subject. 2 The division of renewable energy resources. 4 6 A test. Testing the properties of a fuel cell (PEM type), part 1. Testing the properties of a fuel cell (PEM type), part 2. Testing the properties of a fuel cell (PEM type), part. 7 The verification of results and report assessment, part 1. U_0 10 Testing the properties of a photovoltaic cell, part 1. Testing the properties of a photovoltaic cell, part 2. Testing the properties of a photovoltaic cell, part. 11 The verification of results and report assessment, part 2. U_0
12 Testing the properties and coupling a wind power station generation with an energy network, part 1. 1 Testing the properties and coupling a wind power station generation with an energy network, part 2. 14 Testing the properties and coupling a wind power station generation with an energy network, part. 1 The verification of results and report assessment, part. U_0 The methods of assessing teaching results Effect symbol U_0 Methods of assessing teaching results (assessment method, including skills reference to a particular project, laboratory assignments, etc.) Completed laboratory class assignments and submitted reports. Completed laboratory class assignments and submitted reports Completed laboratory class assignments and submitted reports STUDENT S INPUT ECTS credit points Type of student s activity Student s workload 1 Participation in lectures 0 2 Participation in Participation in laboratories 0 4 Participation in tutorials (2- times per semester) 2 Participation in project 6 Project tutorials 7 Participation in an examination Number of hours requiring a lecturer s assistance 67 (sum) 10 Number of ECTS credit points which are allocated for assisted work 2.6 11 Unassisted study of lecture subjects 10 12 Unassisted preparation for 1 Unassisted preparation for tests 10 14 Unassisted preparation for laboratories 10 1 Preparing reports 20 16 Preparing for a final laboratory test 17 Preparing a project or documentation 1 Preparing for an examination 1 Preparing questionnaires
20 Number of hours of a student s unassisted work (sum) 21 Number of ECTS credit points which a student receives for unassisted work 2.2 22 Total number of hours of a student s work 12 2 ECTS credit points per module 1 ECTS credit point=2-0 hours 24 Work input connected with practical Total number of hours connected with practical 7 2 Number of ECTS credit points which a student receives for practical