The aim of studying and bibliography

The main aim of study: The main goal is to provide students with the knowledge and skills necessary to perform an energy audit. Student will obtain theoretical and practical knowledge in the field of effective energy management, methods of improving energy efficiency. Obtains information on legal issues related to energy efficiency and for improving energy efficiency. The basics of economic issues related to assessing the profitability of investments to improve energy efficiency and reduce energy consumption in buildings and technological processes will also be discussed.

The general information about the module: Analysis of activities related to the improvement of efficiency energy related to: thermal modernization of buildings, compressed air installations, steam installations, boilers, HVAC installations, technological processes, etc.

Teaching materials: Materiały udostępnianie przez prowadzącego w trakcie zajęć

others: https://www.einstein-energy.net/

Bibliography required to complete the module

Bibliography used during lectures

1	Górzyński J.;	Audyting energetyczny	Biblioteka Fundacji Poszanowania Energii; NAPE S.A.	2002
2	M. Robakiewicz	OCENA CECH ENERGETYCZNYCH BUDYNKÓW	Biblioteka Fundacji Poszanowania Energii. NAPE S.A..	2009
3	WAYNE C. TURNER	ENERGY MANAGEMENT HANDBOOK	THE FAIRMONT PRESS, INC. Lilburn, Georgia.	2001

Bibliography used during classes/laboratories/others

1	https://www.einstein-energy.net/		.
2		Energy SavingS Toolbox – an Energy audit Manual and Tool	.

Bibliography to self-study

1

Maciej Robakiewicz

SYSTEM DORADZTWA ENERGETYCZNEGO W ZAKRESIE BUDYNKÓW. MATERIAŁY POMOCNICZE I NARZĘDZIA

Biblioteka Fundacji Poszanowania Energii. NAPE S.A..

2012

Basic requirements in category knowledge/skills/social competences

Formal requirements: Registration for semester

Basic requirements in category knowledge: Thermodynamics - basics of energy balancing. Heat transfer - conduction, heat transfer, convection.

Basic requirements in category skills: Analytical thinking skills, obtaining information from literature, self-education.

Basic requirements in category social competences: Teamwork skills.

Module outcomes

MEK	The student who completed the module	Types of classes / teaching methods leading to achieving a given outcome of teaching	Methods of verifying every mentioned outcome of teaching	Relationships with KEK	Relationships with PRK
01	The ability to prepare an energy balance of the analyzed facility and the assessment of potential possibilities of energy efficiency. Ability to perform an energy audit.	lectures/laboaratory	test/project	K_W06+ K_U03+	P7S_UW P7S_WG
02	The ability to use basic economic indicators to assess the economic effectiveness of a thermomodernization project.	lectures/laboratory	Test/project	K_W06+ K_K02+ K_K03+	P7S_KO P7S_KR P7S_WG
03	Ability to carry out an energy audit.	lecture/laboratory	Test/project	K_U03+ K_U06+	P7S_UW

Attention: Depending on the epidemic situation, verification of the achieved learning outcomes specified in the study program, in particular credits and examinations at the end of specific classes, can be implemented remotely (real-time meetings).

The syllabus of the module

Sem.	TK	The content	realized in	MEK
2	TK01	Energy auditing - basic terms: definition of auditing, full and extended auditing. Methods of approach during the implementation of auditing. The purpose of auditing, preparation and collection of information, measurements, compilation of the energy balance	W01	MEK01
2	TK02	Expenditures and effects in projects to improve energy use. Characteristics of the effects caused by the implementation of projects. Ways of indicating financial resources for modernization. Reduce your energy costs. Calculation of the total effects of modernization	W02	MEK01 MEK02
2	TK03	Economic profitability analysis of industrial installation modernization projects. Calculation of profitability indicators. Cash flows for specific income and expenses. Discount rate and discount factor. Actual interest rate. Financial flows financed from own resources. Cash flow when financing with a bank loan	W03	MEK01 MEK02
2	TK04	Project profitability analysis. Discount methods. Simple methods of assessing profitability. Net present value. Internal rate of return. Payback period. The cost of producing a unit of energy.	W04	MEK01 MEK02
2	TK05	Cost sensitivity analysis. Uncertainty due to capital expenditure. Methods of taking into account the risk - one-parameter sensitivity analysis. Profitability Assessment Examples - Calculating Net Present Value with known cash flows. Application of the payback period	W05	MEK01 MEK02
2	TK06	Energy saving potential. Characteristics of buildings: flat roofs, roofs, external walls, doors, heating and ventilation systems. Reasons for heat loss.	W06	MEK01
2	TK07	-	W07	MEK01
2	TK08	Purpose and scope of auditing. Methodology. Assessment criteria. Basic technical data. Description of the building structure. Heating and ventilation installations - inventory. Assessment of the current technical condition. Determination of heating power demand and seasonal heat demand for heating. Determination of energy demand for domestic hot water. Heating and DHW charges. Proposed projects to improve the use of energy. Determining investment outlays. Profitability analysis results	W08	MEK01 MEK03
2	TK09	Assessment of the technical condition of the building. Description of the structure. Building heating system	P01	MEK01
2	TK10	Calculation of heating power demand and heating costs.	P02	MEK01
2	TK11	Building ventilation system - determination of ventilation air demand	P03	MEK01
2	TK12	Energy balance of the selected facility. Proposed projects to improve the use of energy	P04	MEK01 MEK03
2	TK13	Project profitability analysis. Investment expenditure	P05	MEK01

The student's effort

The type of classes	The work before classes	The participation in classes	The work after classes
Lecture (sem. 2)	The preparation for a test: 2.00 hours/sem.	contact hours: 9.00 hours/sem.	complementing/reading through notes: 2.00 hours/sem. Studying the recommended bibliography: 10.00 hours/sem. Others: 4.00 hours/sem.
Project/Seminar (sem. 2)	The preparation for projects/seminars: 4.00 hours/sem.	contact hours: 9.00 hours/sem..	Doing the project/report/ Keeping records: 10.00 hours/sem.
Advice (sem. 2)
Credit (sem. 2)		The written credit: 1.00 hours/sem.

The way of giving the component module grades and the final grade

The type of classes	The way of giving the final grade
Lecture	Assessment is made in writing from the entire scope of the material presented during the lecture.
Project/Seminar
The final grade	The basis for completing the course is obtaining a positive grade for the lecture and project. The final grade for the subject is the weighted average of the lecture-60% and the project-40%.

Sample problems

Required during the exam/when receiving the credit
(-)

Realized during classes/laboratories/projects
Poszanowanie Energii_projekt nr 2.pdf

Others
(-)

Can a student use any teaching aids during the exam/when receiving the credit : no

The contents of the module are associated with the research profile: yes

1	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz; G. Szeliga	The Process of Bending Pipes for Components of Aircraft Frames and Trusses	2024
2	P. Bałon; B. Kiełbasa; M. Kloc; E. Rejman; R. Smusz; A. Szęszoł	Proces dynamicznej selekcji materiałów metalicznych wraz z ich konsolidacją	2024
3	M. Kmiotek; R. Smusz	Effect of thin obstacles heights on heat transfer and flow characteristics in microchannels	2023
4	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz	Research on the impact of various coating types on parts wear of certain injection pump elements	2023
5	P. Bałon; B. Kiełbasa; Ł. Kowalski; R. Smusz	Thermal Performance of the Thermal Storage Energy With Phase Change Material	2023
6	P. Bałon; M. Bembenek; B. Kiełbasa; W. Koszela; E. Rejman; R. Smusz	The Influence of Structuring Surfaces and Slide Burnishing on Tribological Properties	2023
7	P. Bałon; M. Bembenek; B. Kiełbasa; Ł. Kowalski; E. Rejman; R. Smusz	Experimental and Numerical Characterizataion of Thermal Bridges in Windows	2023
8	P. Cichosz; M. Drajewicz; M. Góral; A. Majka; W. Nowak; J. Sęp; R. Smusz	Design of Newly Developed Burner Rig Operating with Hydrogen Rich Fuel Dedicated for Materials Testing	2023
9	R. Filip; R. Smusz; J. Wilk	Experimental investigations on thermal diffusivity of heterogeneous materials	2023
10	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz	Comparison of the open and closed profile in the PVC profiles of a window frame	2022
11	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz	Experimental tests of window joinery in the scope of meeting technical requirements	2022
12	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz	Influence of the shape of reinforcing window profiles on the strength and torsional stiffness of windows	2022
13	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz	Operational tests of a distributor injection pump	2022
14	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz	Research on the influence of machining parameters in HSC technology in the automotive industry	2022
15	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz	Using HSM Technology in Machining of Thin-Walled Aircraft Structures	2022
16	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz; G. Szeliga	Experimental studies of thin-walled aircraft structures	2022
17	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz; G. Szeliga	The use of thin-walled milling in the technological production processes of aviation structural elements	2022
18	P. Bałon; B. Kiełbasa; S. Noga; E. Rejman; R. Smusz; J. Szostak	Analytical and Numerical Analysis of Injection Pump (Stepped) Shaft Vibrations Using Timoshenko Theory	2022
19	P. Bałon; B. Kiełbasa; Ł. Kowalski; R. Smusz	Case Study on the Influence of Forming Parameters on Complex Shape Part Deformation	2022
20	P. Bałon; E. Geurts; B. Kiełbasa; E. Rejman; R. Smusz; G. Szeliga	Stability analysis of high speed cutting in application to aluminum alloys	2022
21	S. Grosicki; R. Smusz; J. Wilk	Mass/Heat Transfer Analogy Method in the Research on Convective Fluid Flow through a System of Long Square Mini-Channels	2022
22	M. Markowicz; R. Smusz; E. Smyk	Experimental study of the LED lamp	2021
23	U. Florek; P. Gil; R. Smusz; M. Szewczyk	Urządzenie do oczyszczania obiektów ruchomych, zwłaszcza do osuszania lub odladzania oraz sposób sterowania tym urządzeniem	2021
24	W. Frącz; G. Janowski; R. Smusz; M. Szumski	The Influence of Chosen Plant Fillers in PHBV Composites on the Processing Conditions, Mechanical Properties and Quality of Molded Pieces	2021
25	N. Bałon; P. Bałon; J. Cieślik; B. Kiełbasa; Ł. Kowalski; E. Rejman; R. Smusz; J. Szostak; A. Świątoniowski	Zastosowanie cienkościennych konstrukcji integralnych w lotnictwie na przykładzie projektu SAT-AM	2020
26	P. Bałon; B. Kiełbasa; Ł. Kowalski; E. Rejman; R. Smusz; J. Szostak; A. Świątoniowski	Stress Concentration Analysis of the Injection Pump Shaft	2020
27	P. Bałon; J. Cieślik; B. Kiełbasa; Ł. Kowalski; E. Rejman; R. Smusz; J. Szostak; A. Świątoniowski	Thin-walled Integral Constructions in Aircraft Industry	2020
28	P. Bałon; J. Cieślik; B. Kiełbasa; Ł. Kowalski; E. Rejman; R. Smusz; J. Szostak; A. Świątoniowski; J. Wilk	Thermal Stratification in the Storage Tank	2020
29	P. Bałon; J. Cieślik; Ł. Halama; B. Kiełbasa; T. Lach; M. Lesiński; D. Łajczak; E. Rejman; R. Smusz	Process of manufacturing a tailpipe shape by cold forming in automotive industry	2020
30	R. Gałek; P. Gil; R. Smusz; J. Wilk	Centerline heat transfer coefficient distributions of synthetic jets impingement cooling	2020
31	T. Bednarczyk; G. Chmiel; R. Filip; R. Smusz; J. Wilk	Experimental investigations on graphene oxide/rubber composite thermal conductivity	2020
32	P. Bałon; A. Burek; B. Kiełbasa; A. Kochman; E. Rejman; R. Smusz	Badania koncentracji naprężeń w wałku wysokociśnieniowej pompy wtryskowej	2019
33	P. Bałon; B. Kiełbasa; E. Rejman; R. Smusz; J. Szostak	Formowanie pojemników na materiały PCM metodą hydrotechniczną z elastomerem	2019
34	P. Bałon; B. Kiełbasa; Ł. Kowalski; E. Rejman; R. Smusz; J. Szostak; A. Świątoniowski	Efekt sprężynowania belki zderzaka samochodu osobowego dla metody formowania na zimno i na gorąco	2019
35	P. Bałon; B. Kiełbasa; Ł. Kowalski; E. Rejman; R. Smusz; J. Szostak; A. Świątoniowski	The application of thin-walled integral constructions in aviation as exemplified by the SAT-AM project	2019
36	P. Bałon; J. Cieślik; B. Kiełbasa; E. Rejman; R. Smusz; J. Szostak	A process of forming austenitic steel using a rubber membrane and oil	2019
37	P. Bałon; J. Cieślik; B. Kiełbasa; E. Rejman; R. Smusz; J. Szostak	Comparison of springback value of the selected structure element for cold forming and hot forming methods	2019
38	P. Gil; R. Smusz; M. Tychanicz-Kwiecień	Performance of thermal insulation fabricated by rapid prototyping technology	2019
39	P. Gil; R. Smusz; M. Tychanicz-Kwiecień	The design of experimental set-up for testing of heat exchangers	2019
40	R. Smusz; J. Wilk	Liczby kryterialne w charaktersytyce wężownicowego wymiennika ciepła	2019
41	U. Florek; P. Gil; R. Smusz; M. Szewczyk	Urządzenie do oczyszczania obiektów ruchomych, zwłaszcza do osuszania lub odladzania oraz sposób sterowania tym urządzeniem	2019