Contribution to Multi-Energy Flow Management for Building Energy Hub

J. Ubiquitous Syst. Pervasive Networks Pub Date : 2021-03-01 DOI:10.5383/JUSPN.15.01.004
M. E. Khaili, Redouane Marhoum, Chaimaa Fouhad, H. Ouajji
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Abstract

Global demand for primary fossil energy continues to increase. However, the production of energy from fossil fuels, in addition to depleting available reserves, releases millions of tons of Greenhouse Gas (GHG) into the atmosphere. Thus, it is obvious that the high concentration of GHGs in the air disrupts the natural greenhouse effect and consequently causes global warming. The implementation of action plans aimed at reducing greenhouse gas emissions has led all countries to use clean energy sources (sun, earth, wind) called renewable energies and also to rationalize the use of energies whether based on fossil fuels or renewable. Our paper presents a modeling of the demand and its management to ensure an optimization of the energy consumption and the reduction of its bill
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对建筑能源枢纽多能流管理的贡献
全球初级化石能源需求持续增长。然而,从化石燃料中生产能源,除了耗尽可用储量之外,还向大气中释放了数百万吨温室气体(GHG)。因此,很明显,空气中高浓度的温室气体破坏了自然温室效应,从而导致全球变暖。旨在减少温室气体排放的行动计划的实施使所有国家都开始使用被称为可再生能源的清洁能源(太阳、地球、风能),并使基于化石燃料或可再生能源的能源使用合理化。本文提出了一个需求模型及其管理,以确保能源消耗的优化和账单的减少
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J. Ubiquitous Syst. Pervasive Networks
J. Ubiquitous Syst. Pervasive Networks
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