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Publication
Caraterização dos consumos energéticos por edifício do IPB e dimensionamento do fornecimento de energia ao campus
| Name: | Description: | Size: | Format: | |
|---|---|---|---|---|
| 3.72 MB | Adobe PDF |
Advisor(s)
Abstract(s)
O consumo de energia tem apresentado um crescimento significativo nos últimos anos, impulsionado pelo aumento da demanda industrial, residencial e pela eletrificação dos transportes. Este cenário exige novas estratégias para garantir a sustentabilidade e a eficiência energéticas.
Esse trabalho tem por objetivo o estudo e caracterização dos diagramas de carga dos edifícios do IPB, dimensionamento da produção solar fotovoltaica a instalar em cada edifício, considerando ainda o armazenamento de energia caso existam muitos excedentes que visam suprimir os consumos noturnos do campus.
Pretende-se utilizar os softwares PVsyst (especializado para simulação, dimensionamento e análise de desempenho de sistemas de energia solar fotovoltaica) e Sunny Design (software da SMA usado para planejar e dimensionar sistemas fotovoltaicos, otimizando o desempenho com base em dados técnicos e condições locais) para facilitar o dimensionamento e a realização deste projeto.
A análise do consumo energético foi baseada uma folha de Excel contendo dados de consumo dos edifícios adquiridos em períodos de 15 em 15 minutos ao longo de um ano.
Energy consumption has shown a significant growth in recent years, driven by the increased industrial and residential demand and the electrification of several means of transport. This scenario requires new strategies to ensure sustainability and energy efficiencies. The objective of this work is to study and characterize the load diagrams of the IPB buildings, sizing the photovoltaic solar production to be installed in each building, also considering energy storage in case there is a large surplus to suppress nighttime consumption on the campus. Technical and economically assess the solutions for the IPB. The aim is to use the softwares Pvsyst and Sunny Design, to facilitate the dimensioning and implementation of this project. Data acquisition was based on an Excel spreadsheet with the energy consumption data in the buildings extracted every 15 minutes along the year 2022, where it was necessary to carry out several analyses to obtain daily and nighttime consumption, in order to know the power to be installed in each building according to its respective consumption.
Energy consumption has shown a significant growth in recent years, driven by the increased industrial and residential demand and the electrification of several means of transport. This scenario requires new strategies to ensure sustainability and energy efficiencies. The objective of this work is to study and characterize the load diagrams of the IPB buildings, sizing the photovoltaic solar production to be installed in each building, also considering energy storage in case there is a large surplus to suppress nighttime consumption on the campus. Technical and economically assess the solutions for the IPB. The aim is to use the softwares Pvsyst and Sunny Design, to facilitate the dimensioning and implementation of this project. Data acquisition was based on an Excel spreadsheet with the energy consumption data in the buildings extracted every 15 minutes along the year 2022, where it was necessary to carry out several analyses to obtain daily and nighttime consumption, in order to know the power to be installed in each building according to its respective consumption.
Description
Keywords
Autoconsumo Energia solar fotovoltaica Eficiência energética Pvsyst Sunny design