A5041379522- Phase Change Materials Research
- Solar Thermal and Photovoltaic Systems
- Adsorption and Cooling Systems
- Building Energy and Comfort Optimization
- Photovoltaic System Optimization Techniques
- Microgrid Control and Optimization
- Solar Radiation and Photovoltaics
- Solar Energy Systems and Technologies
- Solar-Powered Water Purification Methods
- Urban Heat Island Mitigation
- Nanofluid Flow and Heat Transfer
- Diverse Academic Research Analysis
Université Ibn-Tofail
2021-2025
Université Mohammed VI Polytechnique
2021-2025
Polytechnic University
2022
Office Régional de Mise en Valeur Agricole de Ouarzazate
2021
Al Akhawayn University
2021
Renewable Energy Systems (United Kingdom)
2021
Passive latent heat thermal energy storage technologies with phase change materials (PCM) provide a potential solution to reduce demand and regulate the comfort in occupied buildings. In this study, numerical investigation is carried out on PCM-enhanced integrated building walls under semi-arid climate set key parameters for effective utilisation of PCM. A parametric study PCM-composites performed, including phase-change temperatures range, thicknesses, location, configurations, mechanical...
Industrial Process Heat (IPH) represents a promising sector of application for solar concentration technologies – the Linear Fresnel Reflectors (LFR) as an alternative to conventional source thermal energy. Morocco is endowed with abundant resource other countries in MENA region, high level DNI available over year especially southeast, mid-south, and south (Moroccan Sahara Desert). The main objective this work assess potential production industrial process heat considering six different...
The integration of phase change materials (PCMs) in the construction sector as a passive latent heat thermal energy storage system is promising solution to regulate comfort occupants and reduce consumption. In this study, numerical investigation PCM-enhanced integrated building walls semi-arid climate performed better understand PCM effect optimise choice PCM. A parametric study various phase-change (RT-18 HC, RT-21 RT-25 RT-28 RT-35 HC) PCM-composites performed. simulation results showed...
This study investigates the use of CuO-enhanced Paraffin wax (RT-55) in a horizontal co-axial regenerator, addressing challenge low thermal conductivity Phase Change Materials (PCM). The focus is primarily on examining influence CuO nanoparticles and energetic performance regenerator. research begins by exploring impact volume fraction both total melting time energy density. Subsequently, incorporates addition 3 wt.% to diverse regenerator configurations, including non-uniform longitudinal...
Photovoltaic cells convert absorbed solar energy into electricity by transforming the incident visible wavelengths of radiation on their surface, while other are transformed thermal energy. However, main issue they face is elevated temperature PV modules during operation, which reduces production efficiency. Thermal control photovoltaic panels using phase change materials (PCMs) has been a potential solution to overcome this problem and perform as passive cooling material. In study,...
Increasing fuel consumption and rising greenhouse gas emissions are forcing industries to improve the energy efficiency of their processes. One way achieve this goal is use waste heat recovery systems. Latent storage using PCM one promising solutions that gained attention researchers due its worthwhile characteristics, including a high density, capability restore at constant temperature. However, PCMs, especially organic PCM, still suffer from low thermal conductivity reduces performance....
Thermal energy storage (TES) with phase change materials (PCM) can improve efficiency by reducing availability and demand mismatch. However, despite the potential of this technology, low thermal conductivity PCM slows down cycle limits its commercialisation. The literature has proposed many solutions to heat transfer, such as fins, encapsulation, or metal foam inserts, which are too expensive complicated. This study focuses on an inexpensive practical solution, eccentricity shell tube...
Thermal energy storage (TES) with phase change materials (PCM) can improve efficiency by reducing availability and demand mismatch. However, despite the potential of this technology, low thermal conductivity PCM slows down cycle limits its commercialisation. The literature has proposed many solutions to heat transfer, such as fins, encapsulation, or metal foam inserts, which are too expensive complicated. This study focuses on an inexpensive practical solution, eccentricity shell tube...