Morocco bes building energy solutions
ENERGY EFFICIENCY GREEN BUILDING IN MOROCCO
environmental and energy solutions adapted to their needs, at the scale of territories and buildings in Marco and Africa. Through its expertise, ALTO-EKO works to improve the sanitary quality of spaces, to improve the comfort and living environment of building occupants by integrating the economic interest of customers and users through the
Design Optimization of Energy-Efficient Residential Buildings in Morocco
This study uniquely applies it to the context of Moroccan residential buildings across six climate zones, integrating detailed energy simulations and lifecycle cost analysis to develop region-specific solutions for net-zero energy buildings (NZEB).
Improving the Passive Building Energy Efficiency: A Case Study of
The aim of this work is to propose solutions to improve the thermal inertia of the envelope of a Moroccan modern house in order to reduce its energy consumption.
Enhancing Energy Efficiency in Moroccan Construction through
Our results show that this "bioclimatic" design significantly impacts cooling loads more than heating demands. The modified building achieved a 52% reduction in summer energy usage compared to a conventional reference building. This energy saving translates to a 39% decrease in greenhouse gas emissions.
Energy Efficiency for Social Buildings in Morocco, Comparative
This paper involves comparing active and passive energy efficiency solutions for building. The results presented come from the application of first the insulation, double glazing, and finally, all conditions required by Moroccan thermal regulation of building construction as passive solutions.
Multi-objective optimization of passive energy efficiency
More than 21% of energy saving can be achieved, 28% in heating load and 40% in cooling. Moreover, 45% of building energy load can be covered instantly by renewable energy systems in all Moroccan climatic zones.
Morocco''s path to a climate-resilient energy transition:
Beyond the advancement of renewable energy, Morocco''s policy initiatives encompass energy efficiency measures in challenging-to-abate sectors, such as building insulation and the adoption of energy-saving light bulbs. The overarching objective is to achieve a 20% reduction in overall energy consumption by 2030.
Enhancing building energy efficiency across diverse climatic
In Morocco, prevalent building materials include brick, concrete, and cement mortar. The outdoor climate often subjects many structures to uncomfortable thermal conditions. The objectives of this study are to analyze the insulating effect of sisal fiber and determine its optimal thickness to reduce thermal loads.
Evidence-based numerical building model enhancement and building energy
Building Energy Simulation (BES) is widely used as a decision tool to assist building professionals in the design phase by integrating Heating, Ventilation, and Air Conditioning (HVAC) systems specifications, PV properties, and building envelope characteristics.
Assessment of building design strategies to enhance energy
Energy efficiency in the context of building design is a significant concern in Morocco. This paper offers a comprehensive analysis of how various design variables can impact both energy consumption and thermal comfort in the Moroccan context.
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