Yazar "Toptaş, Ali" için MÜF, Elektrik-Elektronik Mühendisliği Bölümü Koleksiyonu listeleme
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Aerosol filtration performance of nanofibrous mats produced via electrically assisted industrial-scale solution blowin
Güngör, Melike; Toptaş, Ali; Çalışır, Mehmet Durmuş; Kılıç, Ali (Wiley, 2021)Highly efficient polyamide 6 (PA6)-based nanofibrous air filter media was developed for particulate matter (PM) removal in the ambient atmosphere. The PA6 nanofibrous mats exhibited 85% PM0.3 capture performance at a cost ... -
Clogging performance of micro/nanofibrous laminated composite air filter media
Çalışır, Mehmet D.; Güngör, Melike; Toptaş, Ali; Dönmez, Utkay; Kılıç, Ali; Karabuğa, Şemistan (Sage Publications, 2022)The performance of fibrous filter media relies on factors such as particle capture efficiency, pressure drop and clogging time. Fiber diameter, porosity and packing density are important web-based factors to improve final ... -
Enhancing filtration performance of submicron particle filter media through bimodal structural design
Toptaş, Ali; Çalışır, Mehmet Durmuş; Güngör, Melike; Kılıç, Ali (Wiley, 2023)Depth filtration is a widely utilized mechanism for submicron aerosol filtration using disposable filter cartridges and facemasks. The filter media should be carefully engineered to reach high filtration efficiency and ... -
Optimization of electro-blown PVDF nanofibrous mats for Air filter applications
Toptaş, Ali; Çalışır, Mehmet Durmuş; Kılıç, Ali (TUBITAK, 2024)Particles with diameters smaller than 2.5 µm (PM2.5) have the capability to penetrate into respiratory system, thereby exerting adverse effects on human health. High-efficiency nanofiber mats present a viable and efficient ... -
Production of ultrafine PVDF nanofiber-/banonet-based air filters via the electroblowing technique by employing PEG as a pore-forming agent
Toptaş, Ali; Çalışır, Mehmet Durmuş; Kılıç, Ali (PMC, 2023)Particles with diameters smaller than 2.5 μm (PM2.5) can penetrate the respiratory system and have negative impacts on human health. Filter media with a porous surface and nanofiber/ nanonet structure demonstrate superior ...