Smart methodology for performance improvement of energy sources for home application

The integrated solar and wind serves as a major contributor's for clean electrification in many nations. In this technical era energy crisis is primary issue due to depletion of nonconventional resources. Solar and wind available are chargeless. The hybrid energy can be installed for domestic o...

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Veröffentlicht in:	Microprocessors and microsystems 2020-04, Vol.74, p.103042, Article 103042
Hauptverfasser:	Sivagami, P., Jothi Swaroopan, N.M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Clean energy Communication Converters Depletion Electrification Energy conversion efficiency Energy flow Energy resources Energy sources Flyback converter IoT-internet of things IP (Internet Protocol) Monitoring Multilevel inverter Power consumption Power efficiency PV-Photovoltaic Array Residential energy Wind
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container_title	Microprocessors and microsystems
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creator	Sivagami, P. Jothi Swaroopan, N.M.
description	The integrated solar and wind serves as a major contributor's for clean electrification in many nations. In this technical era energy crisis is primary issue due to depletion of nonconventional resources. Solar and wind available are chargeless. The hybrid energy can be installed for domestic or commercial purpose, it is required to meet impetration of power. To meliorate the pursuance of the hybrid energy, installed the continuous real time monitoring becomes necessary. IoT helps in monitoring the system by providing the detailed values of different parameters of plant over a dedicated IP address. This helps to maintain the plant over long distances by getting to know the values and thus maintain it to the desired levels. IoT helps in communicating the performance of the power generated and helps controlling the switch over between the energy sources available. A framework for energy source integrated with IoT is proposed to have fly back converter in continuous conduction mode along with multilevel inverter to decline the stress of current and escalate the power efficiency. The proposed venture not only helps in monitoring, controlling energy flow without any manual interference and power interruption, but also increases the productivity for the consumer and is highly reliable. In order to affirm the suggested venture a prototype module is made and executed.
doi_str_mv	10.1016/j.micpro.2020.103042
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source	Elsevier ScienceDirect Journals
subjects	Clean energy Communication Converters Depletion Electrification Energy conversion efficiency Energy flow Energy resources Energy sources Flyback converter IoT-internet of things IP (Internet Protocol) Monitoring Multilevel inverter Power consumption Power efficiency PV-Photovoltaic Array Residential energy Wind
title	Smart methodology for performance improvement of energy sources for home application
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