Sökning: "Non-technical losses"
Visar resultat 1 - 5 av 8 uppsatser innehållade orden Non-technical losses.
1. Förlustanalys av Elnätdistribution i Eskilstuna : En noggrann undersökning av elförluster och dess konsekvenser i ett område i Eskilstuna
Uppsats för yrkesexamina på grundnivå, Mälardalens universitet/Akademin för ekonomi, samhälle och teknikSammanfattning : This thesis explores the losses occurring in a specific region located in the southern part of Eskilstuna, where ESEM serves as the network owner. The study places particular emphasis on power factor and load factor as key factors. Its objective is to analyze and comprehend the extent of losses in the network and their implications. LÄS MER
2. Analys av mätvärden från lågspänningsnät för att verifiera nätberäkningar och lokalisera icke-tekniska nätförluster
Uppsats för yrkesexamina på avancerad nivå, Uppsala universitet/ElektricitetsläraSammanfattning : In 2018 the Swedish government introduced a new legislation for the electricity meters installed in the low voltage networks. The legislation includes, among other things, that the electricity meters should be able to measure the current and voltage per phase with a time resolution of one hour or 15 minutes. LÄS MER
3. An analysis of new functionalities enabled by the second generation of smart meters in Sweden
Master-uppsats, Linnéuniversitetet/Institutionen för fysik och elektroteknik (IFE)Sammanfattning : It is commonly agreed among energy experts that smart meters (SMs) are the key component that will facilitate the transition towards the smart grid. Fast-peace innovations in the smart metering infrastructure (AMI) are exposing countless benefits that network operators can obtain when they integrate SMs applications into their daily operations. LÄS MER
4. Assessing the feasibility of implementing DC-microgrids in addition to USB-C and rooftop PV in households and offices: The Cases of Sweden and Spain
Master-uppsats, KTH/EnergiteknikSammanfattning : This Thesis’s frame is the feasibility of DC-microgrids at buildings environment. Nowadays, there is plenty of literature available regarding the benefits of implementing DC at buildings instead of AC as a means of optimizing photovoltaic generation PV on the grounds of minimizing conversion losses, with an overall energy saving of about 5-12% [1] [2]. LÄS MER
5. Assessing the feasibility of implementing DC-microgrids in addition to USB-C and rooftop PV in households
Master-uppsats, KTH/EnergiteknikSammanfattning : This Thesis’s frame is the feasibility of DC-microgrids at buildings environment. Nowadays, there is plenty of literature available regarding the benefits of implementing DC at buildings instead of AC as a means of optimizing photovoltaic generation PV on the grounds of minimizing conversion losses, with an overall energy saving of about 5-12% [1] [2]. LÄS MER