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Öğe Application of Sodium silicate as a halogen-free flame-retardant and evaluate its effectiveness on the flame-retardancy of Polypropylene fabric(Inst Natl Cercetare-Dezvoltare Textile Pielarie-Bucuresti, 2024) Ahrari, Mazyar; Erkoc, Ertugrul; Kut, Y. DilekA halogen-free flame-retardant was synthesized using Silica gel and Sodium hydroxide within the scope of the study. The Polypropylene (PP) fabric was treated with the synthesized Sodium Silicate to investigate its thermal behaviour. The limiting oxygen index (LOI) value of the Polypropylene fabrics dramatically increased after finishing with Sodium silicate and the 50.4% noteworthy LOI value was achieved. The Sodium silicate-treated PP fabrics exhibited a 30.1% LOI value even after washing, compared to the neat PP LOI value which was reported to be 16.4%. The surface modification of the Polypropylene fabric following the plasma treatment was evaluated by elemental mapping, surface topography images, and contact angle measurements and the homogeneity of the Sodium silicate coating was evaluated by Scanning electron microscopy.Öğe Çözücü İçermeyen Gaz Fazı Polimerizasyonu ile Ultra Yüksek Moleküler Ağırlıklı Polietilen Üretim(2017) Erkoc, Ertugrul; Kocer, Hasan; Fellah, Mehmet FerdiÇok fazla yaygın kullanımı olan ve katma değeri yüksek olan Ultra Yüksek Moleküler Ağırlıklı Polietilenin (UHMWPE) ülkemizde üretilmediğinden yola çıkarak, prosesi daha uygun koşullarda üretmek hedeflenmiştir. Hali hazırda üretim teknolojisi olan çamurlu faz polimerleşmesi, çözücü kullanmak zorunluluğu ve gaz-sıvı-kütle transfer direnci dezavantajlarına sahiptir. Bu dezavantajlardan kurtulmak üzere gaz fazı prosesi gerçekleştirmek amaçlanmıştır. Gaz fazi etilen polimerizasyonu ilk olarak yarı kesikli mini reaktör sisteminde gerçekleştirilerek prosese etki eden faktörler ve proses için bilgi birikimi elde edilmiş, mikroskop altında büyüme kinetiği incelenmiş ve son olarak prosese uygun, gerekli ısı transferini sağlayacak reaktör tasarlanarak üretilmiş ve test edilmiştir. Oluşan parçacıklar, TGA, DSC, FTIR, NMR, XRD ile karakterize edilmiş ve Intrinsik Viskozite metodu ile molekül ağırlığı tayin edilmiştir. Gaz fazı prosesinde Yüksek Yoğunluklu Polietilen ve molekül ağırlığı 6x10 6 g/mol e kadar çıkan UHMWPE elde edilmiştirÖğe Effect of the kinematic viscosity on liquid flow hydrodynamics in vortex mixers(Elsevier, 2024) Gecim, Gozde; Erkoc, ErtugrulThe effect of the kinematic viscosity of similar fluids on liquid flow hydrodynamics and the onset of the instability were investigated to acquire information on the mixing behavior of vortex mixers. To assess the influence of the kinematic viscosity, water and two glycerin aqueous solutions with varying weight percentages (25 wt % and 50 wt %) were used. The critical Reynolds number of the flow regime transitions was found using PLIF and PIV flow-field techniques. The liquid flow hydrodynamics and gas flow dynamics in the proposed vortex mixer geometry were compared, as well. It was observed that the kinematic viscosity has a linear relation with the critical Reynolds number; however, the coefficient is different for liquids and gases. Additionally, kinematic viscosity dictates the minimum Reynolds number where the fluids have a full turn inside the chamber. It was observed that fluids having higher kinematic viscosities have a full turn at lower Reynolds numbers, and the critical Reynolds number value decreases with increasing kinematic viscosity.Öğe Fotokatalitik Metan Birlesmesi- Dogal Gaz?Dan Önemli Hidrokarbonlara Geçis(2021) Erkoc, ErtugrulProjede vorteks mikser akıskan yatak reaktörü kullanılarak fotokatalitik metan birlesme reaksiyonu gerçeklestirilmistir. Akıs görüntüleme sistemleri kullanılarak gaz/gaz karısma ve gaz/katı karısma hidrodinamikleri ortaya çıkarılmıstır. Uygulanan Taguchi deneysel tasarım yöntemi ile maksimum gaz/katı karısma parametreleri belirlenmistir. Reaksiyonlarda ve soguk akıs deneylerinde kullanılan partiküller istenilen boyut ve morfolojilerde sentezlenerek karakterizasyonları gerçeklestirilmistir. Katalizör karakterizasyonu için FTIR, XRD, SEM, TEM, partikül boyut ölçümü (ZetaSizer/Master Sizer), BET, ICP ve XPS analizleri yapılmıstır. Katalizörlerin reaksiyon performansları fotokatalitik sabit yatak sistemi kullanılarak test edilmistir. Sabit yatak deneyleri ile elde edilen sonuçlar, sentezlenen katalizörlerin istenilen özelliklerde oldugunu göstermektedir. Sabit yatak reaktör sisteminde yüksek verim ve dönüsüm degeri veren katalizörler gaz/katı hidrodinamik çalısmasında belirlenen çalısma parametrelerine göre akıskan yatak reaktör sisteminde kullanılmıstır. Bu çalısma 118M391 proje kodu ile TÜBITAK tarafından desteklenmistir.Öğe Hydrodynamics of Similar Gases in Vortex Mixers: Effect of Physical Properties on the Onset of Instability(Amer Chemical Soc, 2022) Gecim, Gozde; Erkoc, ErtugrulThe effect of physical properties of gases on the flow hydrodynamics and on the onset of instability was studied to acquire information on how to design fast mixers specific for relevant operations where complete and improved gas mixing is important. To assess the effect of physical properties on the gas flow dynamics in vortex mixers, three gases hydrogen, nitrogen, and argon were chosen because of the viscosity and density differences they provide. Using flow visualization and PIV flow-field characterization techniques, critical Reynolds numbers of flow regime changes were identified from segregated to engulfment flow regimes for three pairs of gases. It was shown that the first critical point of the flow, where the gases have a full rotation in the chamber, depends on the inertial force in terms of dynamic pressure. While hydrogen having the highest kinematic viscosity had a full rotation at Re = 40, nitrogen and argon gases had their full rotation at Re = 70. After these points, a steady rotational flow as a consequence of the balance between the centrifugal and centripetal forces was observed. Similarly, the onset of the engulfment regime was observed earlier for hydrogen, at Re = 150, while it was at Re = 200 for nitrogen and Re = 220 for argon. The present study shows that the gas properties are effective parameters not only on the critical points but also on the shape of the swirling flow pattern formed in the mixer.
