Course detail

Energy use

FEKT-BUEEAcad. year: 2014/2015

Utilization of electricity is realized in a number of technological processes and is immediately linked with its consumption. The electrical energy is used in different processes such as heating, cooling, illuminating, transportation, information generation and transmission, etc. The course makes students familiar with basic types of electrical appliances differentiated to electronic devices, light sources, electro-heat devices and electrical drives with a view to typical design, performance, characteristics of consumption, etc. From point of view of electricity use, the course is focused on electro-heating and lighting engineering. In the part dealing with electro-heating, physics of the heat in context is recapitulated. Next, basics of electro-heating methods and related industrial and household applications are discussed. In the field of illumination, principles and properties of electrical light, light sources, luminaries, photometric quantities and units and artificial illumination from point of view of design, operation and maintenance are covered.

Language of instruction

Czech

Number of ECTS credits

6

Mode of study

Not applicable.

Learning outcomes of the course unit

Student is able to:
- describe individual load types from point of view of consumption characteristics and input power components,
- present basic topologies of power supply units and describe their behaviour,
- explain principles of the light generation, and derive basic spectro-radiometric and photometric variables.
- describe design and operation of the light sources dedicated for general illumination (incandescent, luminescent – discharge and LED lamps), including all ballasts/converters providing feeding in all operation states,
- evaluate light-technical and electrical parameters and properties of the light sources and consider their application,
- describe functionalities of luminaries, their properties and parameters used for sorting procedure related to applications,
- discuss approach of lighting systems design, apply individual procedures of design, including validation technique,
- specify basic types of electro-heating and discuss their applicability in industrial processes,
- explain principles, properties, devices, performance and utilization of direct and indirect resistance heating, arc heating, and induction and microwave heating,
- describe AC and DC traction system, including individual subsystems and their operation with a view to power consumption.

Prerequisites

General knowledge in electrical engineering and physics at the level of second year of study and basic knowledge of material properties, power electronics and electrical machines and apparatus is expected.

Co-requisites

Not applicable.

Planned learning activities and teaching methods

Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations. Techning methods include lectures, numerical exercises and practical laboratories. Course is taking advantage of e-learning (Moodle) system.

Assesment methods and criteria linked to learning outcomes

There are evaluated of laboratory exercises, individual project and final exam according to the rules of FEEC. Laboratory training is rated at maximum of 30 points on the basis of submitted records, whereas 15 points is the minimum for admission to final exam. The individual project is classified by 10 points maximally. The final exam is composed of written and oral part, where 60 point can be acquired maximally from both parts (40 and 20 points respectively) and successful pass is conditional on obtaining 20 points in sum at minimum.
Overall classification of the course is in compliance with the FEEC rules. Requirements for completion of the course are specified by a regulation issued by the lecturer responsible of the course and are updated for every year.
The final exam is aimed at understanding in the field of principles and ways of electricity consumption, design of electrical appliances, consumption characteristics and applications mainly in electro heat and illumination engineering.

Course curriculum

Introduction. Application areas. Use and consumption of electricity. Electrical appliances.
Electronic appliances - consumer electronics. Power supplies - SMPS.
Lighting engineering and illumination. Light sources.
Luminaries. Functions, requirements, characteristics and sorting of luminaries.
Design of illuminating systems. Input data, calculations, operation a maintenance of illuminating system.
Electro-heat technology and equipments. Definitions of basic variables, heat transfer and thermal transmittance.
Basic the electrical heating. Applications in industry and domestic use.
Resistance heating. Direct and indirect resistance heating. Resistance welding.
Arc heating. Arc furnaces, arc welding.
Induction heating.
Microwave heating.
Electro-heat technology of buildings - space beating.
Electric drives. AC and DC motors with converters.
AC and DC traction.

Work placements

Not applicable.

Aims

The aim of the course is to apprise students of energy consumption and use with applications in the fields of consumer electronics, electro heating and lighting engineering, electric drives, in the frame of necessity for electrical power engineering.

Specification of controlled education, way of implementation and compensation for absences

The content and forms of course units are specified by a regulation issued by the responsible lecturer and are updated for every academic year. In general, the presence at class is optional except laboratory training, which is mandatory. Missed laboratory training can be accomplished within semester in an alternative date in justified cases, whereas regular letter of apology and agreement with the teacher is required.

Recommended optional programme components

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

BAXANT, P., DRÁPELA, J. Užití elektrické energie. Numerická a laboratorní cvičení. Užití elektrické energie. Numerická a laboratorní cvičení. Brno: FEKT VUT v Brně, 2002. (CS)
BAXANT, P. Užití elektrické energie, Elektronický text č. EEN109. 2003. s. 1 ( s.) (CS)
Rada, J. a kol.:Elektrotepelná technika,SNTL Praha (CS)

Recommended reading

Elektrowärme in Theorie und Praxis,Girardet, Essen (DE)
Hradílek, Z. a kol. Elektrotepelná technika. ČVUT, 2011, 266 stran, ISBN 978-80-01-04938-9 (CS)
K. Sokanský akol. Světelná technika. ČVUT, 2011, 256 stran, ISBN 978-80-01-04941-9 (CS)
Plch,Jiří : Světelná technika v praxi, IN-EL Praha (CS)

Classification of course in study plans

  • Programme EECC Bc. Bachelor's

    branch B-SEE , 3 year of study, winter semester, compulsory

  • Programme EEKR-CZV lifelong learning

    branch EE-FLE , 1 year of study, winter semester, compulsory

Type of course unit

 

Lecture

39 hod., optionally

Teacher / Lecturer

Syllabus

Introduction. Application areas. Use and consumption of electrical energy. Electrical appliances.
Electronic appliances. Power supplies - SMPS.
Lighting engineering and illumination. Light sources.
Luminaries. Functions, requirements, characteristics and sorting of luminaries.
Design of illuminating systems. Input data, calculations, operation a maintenance of illuminating system.
Electroheat technology and equipment. Definitions of basic variables, heat transfer and thermal transmittance
Basic the electrical heating. Applications in industry and domestic use.
Resistance heating. Direct and indirect resistance heating, principles and usage.
Arc heating. Arc furnaces, arc welding.
Induction heating.
Microwave heating.
Thermal comfort and electrical space beating.
Electric drives. AC and DC motors with converters.
AC and DC traction.

Fundamentals seminar

6 hod., optionally

Teacher / Lecturer

Syllabus

Consumption characteristics of appliances.
Illumination system design.
Heat transfers a computation of thermal resistance, heat losses computation and electrical heating system design.

Laboratory exercise

20 hod., compulsory

Teacher / Lecturer

Syllabus

Measurement of switched mode power supply consumption parameters and efficiency.
Measurement of electrical appliances inrush current.
Measurement of luminaries' efficiency.
Measurement of light sources efficiency.
Measurement of desktop illumination.
Design, realization and verification of a heating element properties.
Efficiency measurement of boiling plates using OPACKI method.
Measurement of induction heating energy balance.
Measurement of microwave heating efficiency.
Measurement on induction machine drive.