Yahya Alassaf scite author profile

Solar radiation is considered the main renewable energy source which reshapes the global sustainability plan for future development. Due to the lack of solar radiation measurements, this work investigates the performance of several temperature-based hybrid solar radiation models combining the parametric, statistical and satellite data approaches to estimate the global solar radiation on a horizontal surface. Over 35 years of meteorological data in the new location, Arar City, KSA (Latitude 30°96′ N and longitude 41°05′ E) are employed to establish and validate the models. These models are validated using two datasets with different averaging time spans to investigate the accuracy and reliability of different models as forecasting tools for the solar radiation. The mostly common statistical indicators are calculated to identify the most accurate model. The results show that Model (1) has the best performance among all models with high reliability as a solar radiation forecasting tool in this new location. This model is also validated against the widely-used datasets, namely NASA, On-Site measurements and PVGIS-SARAH data. The model shows excellent values for statistical indicators with high values of coefficient of determination, R2 > 0.955, presenting the best performance regardless of the time span of the validation datasets.

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Unsaturated permeability of clayey soil during desiccation: combined evaporation-shrinkage-cracking

Louati

Trabelsi

Alassaf

et al. 2023

Bull Eng Geol Environ

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Greenhouse Desalination by Humidification–Dehumidification Using a Novel Green Packing Material

Ghazouani

Bawadekji

El-Bary

et al. 2022

Water

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Humidification–dehumidification (HD) is a non-traditional desalination process in which water evaporates from a saline liquid stream and the vapour condenses into purified water. In nature, seawater is heated by solar radiation and evaporates from the air that moistens it. This is known as the rainy cycle. The artificial version of this cycle is called the HD desalination cycle. The latter has received a lot of attention in recent years, and many researchers have studied the complexities of the technology. In the present work, experimental work with a simple configuration was developed and built, consisting of a humidification column followed by a condenser, in which the humidified air is dehumidified to produce fresh water. A novel and unique packaging material was used in the humidifier, consisting of a cellulose plant grown on the banks of the River Nile. In all previous work, the main problem was the type of packaging material that could ensure intimate contact and uniformity between aqueous flow and airflow. Consequently, this new filler material proved extremely suitable in terms of hydrophilicity and interconnectivity. Several variables, including the packing mass of each stage, the number of stages, the flow of air and saltwater, the concentration of saltwater, and the inlet temperature of saltwater and condensation temperature, were examined to determine their influence on the production of fresh water and its salinity. The best results arrived at in this study were wet packing conditions, 0.5 m/s air flowrate, 26 g packing for each of the 6-stage columns, and 500 mL/min water flow rate at 70 °C. It was found that this present setup, which can be coupled with solar heating to make the greenhouse desalination process cost-effective, could produce a high production of fresh water and be competitive compared with other commercial applications.

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Fibers reinforcement of the fissured clayey soil by desiccation

Jamei

Alassaf

Ahmed

et al. 2022

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Desiccation cracks prediction using a 3D finite elements model

Trabelsi

Alassaf

Jamei

et al. 2023

International Journal of Geotechnical Engineering

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Yahya Alassaf

Performance Evaluation of Temperature-Based Global Solar Radiation Models—Case Study: Arar City, KSA

Unsaturated permeability of clayey soil during desiccation: combined evaporation-shrinkage-cracking

Greenhouse Desalination by Humidification–Dehumidification Using a Novel Green Packing Material

Fibers reinforcement of the fissured clayey soil by desiccation

Desiccation cracks prediction using a 3D finite elements model

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