Your search keyword '"Hayder Salem"' showing total 4 results

1. Experimental and Computational Study on Thermal Performance of Wood-Plastic Composites in Building Envelope

Author

Majed AlSarheed, ahmad sedaghat, Mahdi Ashtian Malayer, Hayder Salem, Seyed Amir Abbas Oloomi, Wisam K. Hussam, Abeer Al-Anazi, and Omar AlRifai

Subjects

General Engineering, General Materials Science

Published

2023

2. Climate change and thermo-solar patterns of office buildings with/without window films in extreme hot-arid climate of Kuwait

Author

Fadi Alkhatib, Mahdi Ashtian Malayer, Farhad Sabri, Ahmad Sedaghat, Hayder Salem, Waqar Jan Zafar, Seyed Amir Abbas Oloomi, and Mohammad Sabati

Subjects

Meteorology, Renewable Energy, Sustainability and the Environment, Desert climate, business.industry, 020209 energy, Logging system, Window (computing), Illuminance, Climate change, Humidity, Probability density function, 02 engineering and technology, 021001 nanoscience & nanotechnology, Software, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, General Materials Science, 0210 nano-technology, business

Abstract

This research attempts to develop a systematic method to address climate changes by studying temperature-humidity patterns as the two major meteorological parameters and to moderate these effects using a commercially available window film on interior windows of an office building with double-glazing. A three-floor educational building at Australian College of Kuwait (ACK) was equipped with temperature, humidity and illuminance sensors for two similar size offices, one with 3 M Neutral 20 window films. Total readings of 50,000 entries from each sensor was recorded every 3 min by a home-designed microprocessor-based logging system for three months of June, July, and August 2019. In parallel, the ACK building was simulated in EnergyPlus and DesignBuilder software and calibrated with the experimental measurements. Histograms and a probability density function (PDF) of temperature and humidity are built by a representative rational function as a model of main climate parameters variations. By examining min-mean-max values of data, it is observed that the office with window films has increased indoor humidity and, in most instances, reduced temperature by 2–5 °C compared to double-glazed bare windows which can significantly reduce cooling loads in extreme hot-arid climates. Simulation results are presented on the energy saved and the reduced CO2 footprints by applying the solar window films in the ACK building.

Published

2021

3. Design and Development of Bladeless Vibration-Based Piezoelectric Energy–Harvesting Wind Turbine

Author

Adel Younis, Zuomin Dong, Mohamed ElBadawy, Abeer AlAnazi, Hayder Salem, and Abdullah AlAwadhi

Subjects

Fluid Flow and Transfer Processes, Process Chemistry and Technology, General Engineering, General Materials Science, Instrumentation, wind energy, energy harvesting device, vortex-induced vibrations, computational fluid dynamics, Computer Science Applications

Abstract

To meet the growing energy demand and increasing environmental concerns, clean and renewable fluid energy, such as wind and ocean energy, has received considerable attention. This study proposes a bladeless wind energy–harvesting device based vortex-induced vibrations (VIV). The proposed design is mainly composed of a base, a hollow mast, and an elastic rod. The proposed design takes advantage of vortices generated when the airflow interacts with the mast, and the flow splits and then separates and generates vortices that eventually make the elastic rod oscillate, and out of these oscillations, energy can be harvested. Different airflow disruption geometries are studied and tested numerically and experimentally to identify the most effective shape and orientation for converting wind energy to electric energy. Computational fluid dynamics (CFD) modeling and simulations were performed on the elastic mast, a VIV device’s core wind energy–collecting component, to guide the device’s design. These simulations examined the mast-produced lift coefficient, velocity, pressure, and vorticity contours of different mast geometries. The mast’s vibration energy under different wind intensities was also experimentally tested using a scaled model in the wind tunnel. The level of converted electric power was measured and monitored using piezoelectric sensors mounted at different locations on the mast. The experimental study identified the ideal orientation angle of the mast and the best location for the piezoelectric sensors for harnessing more energy. The experiments confirmed the CFD simulation results that a complex cylinder design produces more power. The combined numerical and experimental studies led to an environmentally friendly, new VIV design with much improved power generation capabilities.

Published

2022

4. Experimental study on the performance of solar window films in office buildings in Kuwait

Author

Waqar Jan Zafar, Seyed Amir Abbas Oloomi, Mohammad Sabati, Hayder Salem, Fadi Alkhatib, Mahdi Ashtian Malayer, Ahmad Sedaghat, Amirhossein Negahi, and Farhad Sabri

Subjects

Human comfort, Materials science, business.industry, Window (computing), Thermal comfort, Humidity, Bioengineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Solar energy, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Weather condition, Modeling and Simulation, General Materials Science, Thin film, 0210 nano-technology, business, Remote sensing

Abstract

This work examines the solar performance of double-glazed windows in four offices in ACK buildings with and without solar window film in actual working conditions. Window films are passive thin films stick to the interior or exterior of windows to effect various solar-optical impacts including energy saving, UV reduction, and increased thermal comfort. For this study, the 3M Neutral 20 and 70 are selected which are made of multilayer nanofilms of 220 SAN25/THV 95-nm thick reflective layers. Real-time measurements of temperature, humidity, and luminous were conducted in 5 min intervals over the months of June, July, and August 2019 and data stored through WiFi system in iClouds. Arduino-type microprocessors and various temperature-humidity, and LUX sensors were assembled and programmed to transfer and store data in real time. Exploring and analyzing the data collected for four offices with and without window films in summer of Kuwait, it is evident that window film has good potential to save water by preserving interior humidity to the level of human comfort, decrease interior temperature to save energy and reduce CO2 footprints, to restrict the solar UV rays to minimum level, and to reduce visual impacts of high solar luminous. The benefits and drawbacks of the selected window films are discussed here for the weather condition of Kuwait.

Published

2020