Course code ETeh4055

Credit points 1

Installation and Repair of Electric Equipment

Total Hours in Course40

Independent study hours40

Date of course confirmation05.01.2016

Responsible UnitInstitute of Energetics

Course developers

author Enerģētikas institūts

Liene Kanceviča

Dr. sc. ing.

author lect.

Aleksejs Gedzurs

Mg. sc. ing.

Course abstract

Course work is designed to reinforce the Theoretical knowledge on electrical installation and repair Methods. Work introduction is selected electrical equipment, given its Characteristics, repair set Goals and Objectives. Employers are defined during the development of an alternative to the assembly and repair technologies, Carried out the analysis of selected Economic and energy-Efficient technology, a technological map, Estimated repair and assembly technology for Implementation of Necessary materials, tools, Labor and Financial resources, as well as repairs related Organizational Measures.

Learning outcomes and their assessment

Knowledge: technical parameters of electrical equipment, development of technological maps for installation and repair of electrical equipment - defended course work, assessed with a mark;

Skills: to collect information, perform its analysis, select materials, tools and labor for the installation and repair of electrical equipment - defended course work, assessed with a mark;

Competence: in the development of electrical equipment assembly and repair technology, compilation of technological maps, and selection of repair circuit schemes; in the creation of technological cards for repair and installation of electrical equipment - defended course work, assessed with a mark.

Course Content(Calendar)

1 Choice of electrical equipment to be repaired, description of the company and the damaged object, problem assessment - 3 h;

2 Diagnosis of electrical equipment to be repaired, collection and analysis of measurements, setting of goal and tasks - 4 h;

3 Collection and analysis of additional data on electrical equipment and companies to be repaired - 2 h;

4 Collection of additional information on alternative solutions to the problem - 2 h;

5 Compilation of additional information, specification, calculations on alternative object assembly and repair solutions - 2 h;

6 Analysis and evaluation of alternative solutions from the point of view of realization of the aim of the work - 2 h;

7 Choice of the final technological solution variant, its justification from the aspects of energy efficiency and repair costs - 3 h;

8 Clarification of the technological solution of the chosen technological solution and performance of the necessary calculations - 4 h;

9 Development of the technological map of the assembly and repair of the object, selection of the necessary materials, tools and equipment - 3 h;

10 Calculation of required labor, qualification, working time for assembly and repair work - 2 h;

11 Necessary safety measures before, during and after the repair - 2 h;

12 Organizational measures related to the dismantling, repair and installation of the object - 3 h;

13 Installation, adjustment and adjustment of the repaired electrical equipment with other related technological equipment - 2 h;

14 Cleaning of the working environment after repairs, clarification of the related working time and costs in the technological map - 2 h;

15 Development of conclusions and proposals for production, design of work - 3 h;

16 Defending the work - 2 h

Requirements for awarding credit points

Work developed and successfully defended in accordance with the set requirements, assessment with a mark

Description of the organization and tasks of students’ independent work

Students write the course work independently.

Criteria for Evaluating Learning Outcomes

Assessment of study results takes place on the basis of the student's answers defending the developed course work.

Compulsory reading

1. Ēku iekšējo elektroinstalāciju izbūve. LBN 261-07. Rīga, 2007. 24 lpp.
2. Plūme I. Elektroiekārtu ekspluatācija un remonts. Mācību līdzeklis. Jelgava: LLU, 2008. 105 lpp.
3. Elektroietaišu tehniskā ekspluatācija. LEK 002. Latvijas Elektrotehniskā komisija, 3. izdevums, 2011. 162. lpp.
4. Scaddan B. Electric wiring domestic. 2003. 124 lpp.

Further reading

1. Budahs M., Zviedrītis M. Elektrisko sadales tīklu elektroietaišu ekspluatācija. Mācību palīglīdzeklis. RVT, 2012. 107 lpp.Pieejams: http://www.rvt.lv/GRAMATAS/Energjetikju_gramatas/16.2ISBNgramata.pdf, skatīts 14.01.2016.
2. Grunte U., Makreckis O. un Zacmanis V. Lietotāju un speciālo elektroietaišu ekspluatācija. Mācību palīglīdzeklis. RVT, 2012. 107 lpp. Pieejams: http://www.rvt.lv/GRAMATAS/Energjetikju_gramatas/17.1ISBNgramata.pdf, skatīts 14.01.2016.
3. Metodiskie norādījumi par drošības prasībām veicot elektromontāžas un ieregulēšanas darbus. Rīga: MN, 2005. 38 lpp.

Periodicals and other sources

1. Latvijas Elektrotehniskās komisijas (LEK) standarti. Pieejams: http://www.latvenergo.lv/lat/par_mums/normativie_dokumenti/lek_energostandarti, skatīts 12.01.2016.
2. Elektroenerģijas ievada uzskaites sadalnes: katalogs. Jauda. 98.lpp. Pieejams: http://www.jauda.com/uploads/files/category/Katalogs.pdf, skatīts 12.01.2016.
3. Vidsprieguma tehnikas katalogs. SLO Latvia SIA. 36 lpp. Pieejams: https://www.slo.lv/upload/catalog/slo_katalogi/slo_vidsprieguma_katalogs_2014_web.pdf

Notes

Compulsory course in full-time and part-time studies of professional higher education bachelor study program Applied Energetics.