Nanotootmise juhtimislahendus
Laen...
Kuupäev
2024
Kättesaadav alates
13.09.2024
Autorid
Ajakirja pealkiri
Ajakirja ISSN
Köite pealkiri
Kirjastaja
Eesti Maaülikool
Abstrakt
Magistritöö keskendub väikese võimsusega nanotootminse päikesejaama omatarbe
optimeerimisele, uurides probleeme seoses päikeseenergia tõhusa kasutamisega
kodumajapidamistes.
Töö eesmärk on välja töötada seade, mis juhib päikesejaama toodetud energiat nii, et
tagatakse maksimaalne omatarve kodumajapidamises viisil, mis erinevalt traditsiooniliset
tootmisvõimsuse piiramisest keskendub omatarbe suurendamisele võimaliku
maksimumini.
Lähtuvalt teoreetilisest taustast ja probleemi kontekstist püütakse luua praktiline ja
efektiivne lahendus päikeseenergia integreerimiseks kodusesse energiasüsteemi.
Magistritöö tulemusel väljatöötatud seade mitte ainult ei täida oma algset eesmärki, vaid
ilmutab ka selget potentsiaali praktiliseks kasutuselevõtuks. Selline lähenemine
päikeseenergia omatarbe optimeerimisel kodumajapidamistes teeb sellest seadmest mitte
ainult kasuliku lahenduse, vaid avavad ka turustamise potentsiaali. Töö autoril on kindel
plaan viia seade turule.
The master's thesis focuses on optimizing self-consumption in a low-power nanomanufacturing solar station, addressing issues related to the efficient utilization of solar energy in households. The goal of the study is to develop a device that manages the energy produced by the solar station to ensure maximum self-consumption in a manner that, unlike traditional production capacity limitations, emphasizes increasing selfconsumption to its potential maximum. Building upon the theoretical background and the context of the issue, the aim is to create a practical and effective solution for integrating solar energy into a home energy system. The device developed as a result of the master's thesis not only fulfills its original purpose but also demonstrates clear potential for practical implementation. Such an approach to optimizing self-consumption of solar energy in households makes the device not only a beneficial solution but also opens up potential for marketability. The author of the thesis has a solid plan to bring the device to the market.
The master's thesis focuses on optimizing self-consumption in a low-power nanomanufacturing solar station, addressing issues related to the efficient utilization of solar energy in households. The goal of the study is to develop a device that manages the energy produced by the solar station to ensure maximum self-consumption in a manner that, unlike traditional production capacity limitations, emphasizes increasing selfconsumption to its potential maximum. Building upon the theoretical background and the context of the issue, the aim is to create a practical and effective solution for integrating solar energy into a home energy system. The device developed as a result of the master's thesis not only fulfills its original purpose but also demonstrates clear potential for practical implementation. Such an approach to optimizing self-consumption of solar energy in households makes the device not only a beneficial solution but also opens up potential for marketability. The author of the thesis has a solid plan to bring the device to the market.
Kirjeldus
Magistritöö
Energiakasutuse õppekaval
Märksõnad
magistritööd, päikeseenergia, omatarve, optimeerimine, energiakasutus, tõhusus