ECTS
ECTS Course Catalogue
Course details
Course code: OŹES20149o16Semester: 2016/2017 summer
Name: Recuperation and energy storage
Major: Renewable Energy and Waste Management
Study Type: second cycle
Course type: compulsory
Study Semester: 2
ECTS points: 2
Hours (Lectures / Tutorials / Other): 15 / 15 / 0
Lecturer: prof. dr hab. inż. Leszek Romański, dr inż. Arkadiusz Dyjakon
Language of instruction: Polish
Learning outcomes: Knowledge: He has an extend knowledge in the range of energy saving and storage R2 OŹE_W10 He has a detailed knowledge supported by the strong theoretical basis in the range of design and exploitation of the systems or devices intended for acquisition and utilization of renewable energy sources. R2 OŹE_W12a Skills: Student is able to identify and determine a specificity of engineering tasks, elaborate the documentation related to the engineering task, as well as prepare text containing discussion of the results in the range of low emission buildings. R2OŹE _U03 He is skilled to self study in order to increase professional competences R2OŹE_U08 He is able to solve, based on the standard engineering actions, the exploitation problems related to low emission buildings taking into account the requirements of the environment protection. R2OŹE _U11
Competences: Social competence: He is aware of the validity of education and self-improvement in the field of renewable energy and understands the need for learning throughout life in order to improve the skills acquired during their studies. R2OŹE _K01 He is aware of the importance of social, professional and ethical responsibility for their actions affect the shape and state of the environment. R2OŹE_K03 He can work in a team accepting the role of the person responsible for the final result of the work and the contractor part of the task. R2OŹE _K05
Prerequisites: Physics, Chemistry, Mathematics, Economics, Thermodynamics
Course content: Recuperation and hest recovery – basics concepts. Construction, types, and operation principles of recuperators in the housing. Ventilation-heating systems with the recuperator – requirements, technical solutions, design. Rules of the recuperators selection. Cooperation of the recuperator with other ventilation systems. Freezing of the recuperator Storage of mechanical energy. Technical solutions. The method for calculating the size of the magazine. Electricity storage. Construction, use different types of batteries. Electricity storage intermediate. Heat storage of low and high temperature. Sensible and latent heat. Characteristics of the deposit. Calculation methods size warehouse. .
Recommended literature: Pawiłojć A., Targański, W. Bonca Z.: Odzysk ciepła w systemach wentylacyjnych i klimatyzacyjnych, Wydawnictwo INNE, Gdynia 1998 Grygier G., Szyperski P.: Wytyczne dla instalacji wentylacyjnej z odzyskiem ciepła (systemu rekuperacji) w domach jednorodzinnych, Stowarzyszenie Polska Wentylacja, Warszawa 2011 Pisarev V.: Projektowanie instalacji wentylacji i klimatyzacji z rekuperacją ciepła, Wyd. Politechnika Rzeszowska, Rzeszów 2014 Oszczak W.: Ogrzewanie domów z zastosowaniem pomp ciepła, WKŁ, Warszawa 2009 Wnuk R.: Budowa domu pasywnego w praktyce, Wydawnictwo INNE, Gdynia 2012 Wnuk R.: Instalacje w domu pasywnym i energooszczędnym, Wyd. Przewodnik budowlany, 2007 Kaiser K.: Wentylacja i klimatyzacja – wymagania prawne, projektowanie, eksploatacja, IPPU Masta sp. z o.o., Gdańsk 2015 Romański L.: 2013. Odnawialne źródła energii. Skrypt UP we Wrocławiu. Romański L., Dyjakon A., Bukowski P., Łuczycka D: 2013. Odnawialne źródła energii. Przewodnik do ćwiczeń. Skrypt UP we Wrocławiu. Rubik M. 1999. Pompy ciepła. Ośrodek Informacji „Technika instalacyjna w budownictwie” Warszawa Staniszewski D., Targański W.: Odzysk ciepła w instalacjach chłodniczych i klimatyzacyjnych, Gdańsk 2007 Hang Li-Zhi: Total heat recovery - Heat and moisture recovery from ventilation air. Nova Science Publisher, New York 2008. Gonzalo R., Rainer V.: Passive house design: planning and design of energy-efficient buildings, Walter de Gruyter, 2014. Maclay B.: The new net zero: leading-edge design and construction of homes and buildings for a renewable energy future, Green Publishing Company, 2014. Hootman T.: Net zero energy design: a guide for commercial architecture, Wiley, 2012. Kachadorian J.: The passive solar house, Chelsea Green Publishing Company, 2006.
Assessment methods: Assessment of education effects in terms of knowledge: credit of written exam, credit of all projects. Projects are realized by the 2-3 persons team. Assessment of education effects in terms of skills: credit of projects calculations, results analysis and interpretation of collected data, argumentation of selected choices, oral presentation. Assessment of education effects in terms of social competences: individual work, team work, selection of arguments, ecological consciousness, copyrights respect, responsibility for entrusted task, conscientiousness in the preparations for task realization.
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