Distributed Generation - Project
BASIC DATA
course listing
A - main register
course code
EES5190
course title in Estonian
Hajaenergeetika - projekt
course title in English
Distributed Generation - Project
course volume CP
-
ECTS credits
6.00
to be declared
yes
fully online course
not
assessment form
Graded assessment
teaching semester
spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
yes
Structural units teaching the course
EE - Department of Electrical Power Engineering and Mechatronics
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
1. Luua võimalus teadmiste omandamiseks energeetika alaste objektide majanduslike projektide koostamiseks.
2. Luua võimalus teadmiste omandamiseks energeetika objektide tasuvuse kriitiliseks hindamiseks.
3. Koostada hajaenergeetika objekti projekt.
4. Arendada loogilist ja analüütilist mõtlemist ning süsteemset lähenemist majandusalaste probleemide lahendamisel energeetikas.
2. Luua võimalus teadmiste omandamiseks energeetika objektide tasuvuse kriitiliseks hindamiseks.
3. Koostada hajaenergeetika objekti projekt.
4. Arendada loogilist ja analüütilist mõtlemist ning süsteemset lähenemist majandusalaste probleemide lahendamisel energeetikas.
course aims in English
1. To create opportunity to obtain knowledge on designing economic projects in energy engineering.
2. To create opportunity to obtain knowledge on critical evaluation of economic feasibility in project of energy engineering
3. Compose distributed generation object project
4. Develop logical and analytical thinking and systemic approach to solving economic problems in energy engineering
2. To create opportunity to obtain knowledge on critical evaluation of economic feasibility in project of energy engineering
3. Compose distributed generation object project
4. Develop logical and analytical thinking and systemic approach to solving economic problems in energy engineering
learning outcomes in the course in Est.
- Koostab ja analüüsib energeetika objekti majanduslikku projekti.
- Koostab ülesande püstituse ja pakub välja võimalikke lahendusi.
- Projekteerib lihtsustatult energeetika objekti, valides sealhulgas objekti suuruse, kasutatava kütuse ja tehnoloogia.
- Leiab ja prognoosib objekti tulevasi kulusid ja tulusid.
- Mõistab ja rakendab investeeringute hindamise mitmesuguseid meetodeid.
- Mõistab ja teostab objekti tundlikkuse arvutusi ja tasuvusarvutusi.
- Valib parima projekti ning põhjendab otsust.
- Osaleb meeskonnatöös, diskuteerib energeetika objekti tasuvuse teemadel ning kaitseb koostatud projekti.
- Koostab ülesande püstituse ja pakub välja võimalikke lahendusi.
- Projekteerib lihtsustatult energeetika objekti, valides sealhulgas objekti suuruse, kasutatava kütuse ja tehnoloogia.
- Leiab ja prognoosib objekti tulevasi kulusid ja tulusid.
- Mõistab ja rakendab investeeringute hindamise mitmesuguseid meetodeid.
- Mõistab ja teostab objekti tundlikkuse arvutusi ja tasuvusarvutusi.
- Valib parima projekti ning põhjendab otsust.
- Osaleb meeskonnatöös, diskuteerib energeetika objekti tasuvuse teemadel ning kaitseb koostatud projekti.
learning outcomes in the course in Eng.
- Compose and analyse economic projects of energy engineering objects
- Formulate problems in energy engineering and propose possible solutions.
- Design energy engineering objects, along with choosing the appropriate dimensions, fuel and technology types for the object.
- Find and forecast an objects future costs and revenues
- Understand and implement different methodologies of cost-benefit analysis
- Understand and conduct sensitivity analysis and cost-benefit analysis
- Make a choice between several alternative solutions to a problem and justify it
- Works as a part of a team, discuss on the topic of feasibility of the chosen object of energy engineering and defend it.
- Formulate problems in energy engineering and propose possible solutions.
- Design energy engineering objects, along with choosing the appropriate dimensions, fuel and technology types for the object.
- Find and forecast an objects future costs and revenues
- Understand and implement different methodologies of cost-benefit analysis
- Understand and conduct sensitivity analysis and cost-benefit analysis
- Make a choice between several alternative solutions to a problem and justify it
- Works as a part of a team, discuss on the topic of feasibility of the chosen object of energy engineering and defend it.
brief description of the course in Estonian
Lähteülesande tehniline ja majanduslik püstitus. Lihtsa tehnilise projekti koostamine. Eesmärgi täitmiseks sobilike tehnoloogiate valik ja sobivus. Majanduslike algandmete prognoosimine. Avatud elektrituru hinnad. Toetused. Laenud. Objekti jooksvad kulutused. Diskontomäära valik. Investeeringute hindamise meetodid. Parima lahendusvariandi kriteeriumid. Tundlikkuse analüüs. Eelhinnangu vormistamine ja kaitsmine.
brief description of the course in English
Technical and economical formulation of the initial task. Preparation of a simple technical project. Energy system technologies and their suitability for different tasks. Forecasting of economical data. Electricity market prices. Subsidies. Loans. Operational expenditures of the object. Choice of discount rate. Investment evaluation methods. Criteria for the best solution. Sensitivity analyses. Drafting of feasibility studies and defending of the project. Project is carried out in groups.
type of assessment in Estonian
-
type of assessment in English
-
independent study in Estonian
-
independent study in English
-
study literature
H. Koduvere. Projekti juhend. 2017.
study forms and load
daytime study: weekly hours
1.0
session-based study work load (in a semester):
lectures
0.0
lectures
-
practices
0.0
practices
-
exercises
1.0
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring
Ahto Pärl, EE - Department of Electrical Power Engineering and Mechatronics
Estonian