This study explores the potential of repurposing mosque minarets as solar chimneys in hot arid regions to facilitate natural ventilation and diminish the reliance on energy-intensive cooling systems. Originating as a means to call the faithful to prayer, minarets have become iconic landmarks within Islamic cities. This research focuses on Cairo, Egypt, as a representative hot arid environment. The paper traces the evolution of the minaret, underscoring the variations in form that influence the experimental design. The investigation proceeded in two stages: the construction of physical mosque models with variably positioned minarets for laboratory testing, ensuring standardized measurements, followed by computational fluid dynamics (CFD) simulations for comparison. Findings indicate that mosque minarets can be effectively adapted for passive ventilation, with their performance significantly influenced by orientation and placement. This study concludes that traditional mosque minarets offer a viable, sustainable option for passive cooling in hot climates.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11055916 | PMC |
| http://dx.doi.org/10.1038/s41598-024-59589-0 | DOI Listing |
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Integrating physical experiments with computational fluid dynamics to transform mosque minarets into efficient solar chimneys.
Sci Rep
April 2024
Department of Architectural Engineering, Nile Higher Institute for Engineering and Technology, Mansoura, Egypt.
This study explores the potential of repurposing mosque minarets as solar chimneys in hot arid regions to facilitate natural ventilation and diminish the reliance on energy-intensive cooling systems. Originating as a means to call the faithful to prayer, minarets have become iconic landmarks within Islamic cities. This research focuses on Cairo, Egypt, as a representative hot arid environment.
View Article and Find Full Text PDFThe accelerating effects of the microorganisms on biodeterioration of stone monuments under air pollution and continental-cold climatic conditions in Erzurum, Turkey.
Sci Total Environ
July 2006
Atatürk University, Department of Environmental Engineering, Engineering Faculty, 25240, Erzurum, Turkey.
Article Synopsis
- The research focused on how microorganisms contribute to the deterioration of stone in Erzurum, Turkey, particularly under cold conditions and air pollution.
- Various historical buildings were examined, some dated between 441 to 823 years old, revealing that microorganisms can thrive even at extremely low winter temperatures.
- A detailed analysis identified multiple microbial species and essential elements in the stone that may serve as an energy source, highlighting the interaction between microorganisms and environmental pollutants in causing deterioration.
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Mesir, an antidote, a theriaca, an Anatolian preparation of mithridaticum will be studied in this paper, based on two kinds of information related with the history of medicine and folklor: 1- The folkloric approach derived and flourished around Manisa and Merkez Efendi. The authentic character of mesir in view of medical and cultural history. Merkez Efendi who lived in Manisa (Anatolia) in the late 15th century was a man of religion initiating novices at Hafsa Sultan lodge, and upon Shaikh Sumbul Efendi's decease came to Istanbul, so as to take the lead of his religious order.
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