Browsing by Author "Chaloupek Jiří"
Now showing 1 - 15 of 15
Results Per Page
Sort Options
- ItemThe effect of material and process parameters on the surface energy of polycaprolactone fibre layers(Elsevier, 2021-01-01) Jirkovec Radek; Erben Jakub; Sajdl Petr; Chaloupek Jiří; Chvojka Jiří
- ItemFlux Enhancement in Membrane Distillation using Nanofiber Membranes(HINDAWI PUBLISHING CORP, 2016-01-01) Jiříček Tomáš; Lederer Tomáš; Komárek Michal; Chaloupek Jiří
- ItemInvestigation on Acoustic Behavior and Air Permeability of Struto Nonwovens(Korean Fiber Society, 2016-01-01) Yang Tao; Xiong Xiaoman; Mishra Rajesh; Novák Jan; Chaloupek Jiří; Sanetrník Filip; Militký Jiří
- ItemInvestigation on Acoustic Behavior and Air Permeability of Struto Nonwovens(Korean Fiber Society, 2016-01-01) Yang Tao; Xiong Xiaoman; Mishra Rajesh; Novák Jan; Chaloupek Jiří; Sanetrník Filip; Militký Jiří
- ItemL L Products(2017-01-01) Sanetrník Filip; Chaloupek Jiří; Havlíček Jiří
- ItemMaximising flux in direct contact membrane distillation(Desalination Publications, 2017-01-01) Jiříček Tomáš; Komárek Michal; Chaloupek Jiří; Lederer TomášElectrospun PVDF nanofibre membranes were manufactured and tested on a direct-contact membrane distillation (DCMD) unit in an effort to maximise flux rate, which is generally low using standard MD membranes. In addition, membrane performance was compared with that of commonly available PTFE, PE and PES film membranes. Salt retention in all but one membrane was above 99 %. At high recirculation velocities, very thin nanofibre layers had up to 30 % higher flux rates than the best reference membranes, though it came at the cost of higher energy losses through conduction. Considering that DCMD is the least energy efficient configuration, nanofibre membranes show a promising future for MD applications with high flux rates. We suggest that new membranes be developed with specific target applications in mind, addressing specific module and operational conditions.
- ItemMethod for Producing Nanofiber Layers Incorporating Particles(Tanger Ltd., Ostrava, 2015-01-01) Chvojka Jiří; Košťáková Eva; Soukupová Julie; Lukáš David; Mikeš Petr; Sanetrník Filip; Blažková Lenka; Chaloupek Jiří; Jirkovec Radek; Ulman Ivan
- ItemNanofibrous material with incorporated particles(2015-01-01) Chvojka Jiří; Lukáš David; Košťáková Eva; Mikeš Petr; Pokorný Pavel; Chaloupek Jiří; Sanetrník Filip
- ItemOptimisation of thin film composite nanofiltration membranes based on laminated nanofibrous and nonwoven supporting material(TAYLOR & FRANCIS INC, 2017-01-01) Yalcinkaya Baturalp; Yalcinkaya Fatma; Chaloupek Jiří
- ItemThe optimization of alternating current electrospun pa 6 solutions using a visual analysis system(MDPI, 2021-01-01) Kalous Tomáš; Holec Pavel; Erben Jakub; Baťka Ondřej; Pokorný Pavel; Bílek Martin; Chvojka Jiří; Chaloupek Jiří
- ItemPreparation of a Hydrogel Nanofiber Wound Dressing(MDPI, 2021-01-01) Jirkovec Radek; Samková Alžběta; Kalous Tomáš; Chaloupek Jiří; Chvojka Jiří
- ItemA process for manufacturing polymeric fibres with a diameter of 100 nm to 10 &mum, and a process for producing a linear, planar or spatial formation containing these polymeric fibres(2019-01-01) Stanislav Lukáš; Bajáková Jana; Lukáš David; Chaloupek Jiří; Pilařová Kateřina; Jenčová Věra; Horáková Jana
- ItemSampling on pilot machine line STRUTO(2015-01-01) Havlíček Jiří; Sanetrník Filip; Chaloupek Jiří
- ItemStudy AC blending nanofibers with conventional fibers(2016-01-01) Lukáš David; Pokorný Pavel; Sanetrník Filip; Mikeš Petr; Zálešáková Denisa; Chaloupek Jiří; Chvojka Jiří; Kalous Tomáš; Soukupová Julie; Beran Jaroslav; Bílek Martin; Valtera Jan; Žabka Petr; Skřivánek Josef; Baťka Ondřej; Kazda František; Diblík Martin
- ItemThin Film Nanofibrous Composite Membrane for Dead-End Seawater Desalination(2016-01-01) Yalcinkaya Baturalp; Yalcinkaya Fatma; Chaloupek Jiří