Essays about: "residential PV"

Showing result 21 - 25 of 96 essays containing the words residential PV.

  1. 21. PV self-consumption: Regression models and data visualization

    University essay from KTH/Skolan för industriell teknik och management (ITM)

    Author : Martos Tóth; [2022]
    Keywords : Self-Consumption; photovoltaics; battery; machine learning; solar energy; random forest; k-nearest neighbor; multi-layer perceptron; lasso regression; ridge regression; linear regression; Egenanvändning; photovoltaics; batteri; maskininlärning; solenergi; random forest; k-nearest neighbors; multi-layer perceptron; lasso regression; ridge regression; linjär regression;

    Abstract : In Sweden the installed capacity of the residential PV systems is increasing every year. The lack of feed-in-tariff-scheme makes the techno-economic optimization of the PV systems mainly based on the self-consumption. The calculation of this parameter involves hourly building loads and hourly PV generation. READ MORE

  3. 22. Extension of low voltage distribution by pure DC or mixed AC/DC parts for integration of solar PV and EV charging

    University essay from KTH/Skolan för elektroteknik och datavetenskap (EECS)

    Author : Sofie Jiang; [2022]
    Keywords : LVDC; LVAC; solar PV system; electric vehicle charging station; IKN-regulation; distribution system; RES integration; LVDC; LVAC; solceller; elfordon; laddstolpar; IKN-regelverk; distributionsnät; förnyelsebara energikällor;

    Abstract : This work examines the local distribution system in two residential areas in two Swedish towns, Oxelösund and Karlskrona, and studies how integration of PV systems and electric vehicle (EV) charging stations (CS) will affect the present distribution system. The research questions focus on the economic feasibility of a LVDC system, how it compares to a traditional LVAC (low voltage alternating current) system from an economic and technical perspective, and the possibilities a LVDC system brings to other DC component applications. READ MORE

  4. 23. Room for residential solar PV?: Exploring the socio-technical system narratives and barriers of the residential solar PV diffusion in Thailand.

    University essay from Lunds universitet/Internationella miljöinstitutet

    Author : Sawinee Galaputh; [2022]
    Keywords : Socio-technical systems; solar photovoltaics; adoption barriers; community solar; Earth and Environmental Sciences;

    Abstract : In working to reduce this increasingly intensified effect of climate change, one of the key strategies employed by different countries around the world is to reduce Green House Gas (GHG) emissions from the energy sector. As they are one of the biggest contributors, the strategies include the employment of different mitigation actions and fading away from the conventional fossil fuel source to a more renewable source of energy production. READ MORE

  5. 24. Design of a Future Residential DC Microgrid

    University essay from KTH/Skolan för elektroteknik och datavetenskap (EECS)

    Author : Viktor Andersson; Max Gugolz; [2022]
    Keywords : Grid control; grid converter; DC microgrid; buck-boost; PV; MPPT; P O; ESS; SOC;

    Abstract : In the search for environmentally friendly methods to implement renewable energy in the power system residential microgrids have been proposed and proven. The direct current (DC) microgrid topology is a promising implementation of a microgrid system due to the increasing amount of DC-operated loads and production units expected in the near future. READ MORE

  6. 25. Dynamic management of schedulable household assets for solar self-consumption maximization with demand side management

    University essay from KTH/Skolan för industriell teknik och management (ITM)

    Author : Tharun Narayanadhas; [2022]
    Keywords : Demand-side management; Mixed-integer linear programming MILP ; Photovoltaics PV ; Self-consumption; Styrning av efterfrågan; linjär programmering med blandade heltal MILP ; solceller PV ; självförbrukning.;

    Abstract : A crucial challenge introduced by the decentralized installations of photovoltaic (PV) systems in the residential sector, is the mismatch between PV electricity generation and the load curve for energy consumption. To overcome this incompatibility between production and consumption, energy storage and demand response are seen as effective solutions. READ MORE