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Renewable Energy in Sri Lanka: An overview on the possible energy sources to fulfill the hourly energy demand
Halmstad University, School of Business, Engineering and Science.
2019 (English)Independent thesis Advanced level (degree of Master (One Year)), 10 credits / 15 HE creditsStudent thesis
Abstract [en]

Electricity can be considered as the backbone of the modern society. It has become anessential component of the day to day life of all human beings in the world. As a result, thedemand of electricity is growing at a higher rate each year. To fulfill this demand a largenumber of fossil fuels are being consumed all around the world.Sri Lanka, as a developing country in the Asian region, is currently facing this issueof having difficulties in meeting the electricity demand of the country’s population. As acountry having a lower economic growth rate, it is an essential choice to reduce the usage offossil fuel, since it is not only reducing the wastage of money for exportations of fossil fuelfrom other countries but also helps to reduce the harmful gas emissions. Compared to theEuropean countries, the involvement of Sri Lanka in utilizing renewable energy resources forpower generation is observed to be very less. Hence this project aims on analyzing andproviding an overview of the possibility in fulfilling the country’s energy demand bycompletely renewable resources.Three renewable energy components have been taken in to account for this study. Thepower output from solar, wind and hydropower resources have been considered and theanalysis has been carried out with MATLAB software. It is an obvious fact that the electricitydemand varies within the day due to the different lifestyles of people. Hence hourly demandis the most important fact to be considered during a demand-supply analysis. With the dataobtained from Ceylon electricity board, Ministry of power and Renewable Energy, theanalysis has been done for all three resources assuming the wind and solar power plants arebeing constructed at the perfect locations after a careful study of the wind maps and solarirradiation data throughout a year.The Analysis has been carried out with solar power alone and then with wind powerand then with the combined solar and wind power. The results have shown that it is notpossible to fulfill the hourly demand solely from solar and wind power since the solarradiation and the wind flow is not constant throughout the day in each location. Hence forcertain hours the power production is excess and for certain hours power production is lessthan the load requirement. Then Hydro power has been fitted in to place to compensate theshortage in the load. Calculations have been carried out considering only the current hydropower plants which are on operation.Regarding Hydro power plants, the analysis was mainly based on the assumption thatpumps are being used to handle the excess electricity produced by solar and wind plants.Hence the final outcome has been considered based on two main facts which are the currentavailable storage span of all hydro plants as a whole and the required pump power and thehydro turbine power to handle the excess power production from solar and wind.The results have shown that it is possible to meet the total hourly energy demand ofthe whole population of the country by completely renewable resources under certainconditions. The combination and sometimes correlation of solar and wind during the day hasthe capacity to meet the different hourly demands within the day for certain days. However tomeet the hourly demand, hydro power has to be included to balance the shortage. Consideringthe two facts mentioned earlier it has been proven that the current storage span and pumppower is sufficient to balance the excess electricity produced from certain value of installedPV power and certain number of turbines in a wind plant, however for certain value ofinstalled PV power and certain number of turbines ,the pump power requirement and storagelevel to handle the excess power is slightly more than the current power production fromhydro. Hence it is possible to meet the hourly load if more hydro power plants could beconstructed for those cases.Since this is a positive and bright outcome, the next step required is the attention ofthe authorities to execute the construction and implementation of projects related to solar,wind and Hydro plants and thereby opening a new era in the technology and the economy ofSri Lanka.

Place, publisher, year, edition, pages
2019. , p. 60
Series
Halmstad University Dissertations
National Category
Engineering and Technology
Identifiers
URN: urn:nbn:se:hh:diva-40439OAI: oai:DiVA.org:hh-40439DiVA, id: diva2:1345117
Subject / course
Energy Technology
Educational program
Master's Programme in Renewable Energy Systems, 60 credits
Presentation
2019-08-22, Halmstad, 01:37 (English)
Supervisors
Examiners
Available from: 2019-08-23 Created: 2019-08-23 Last updated: 2019-08-23Bibliographically approved

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