Influence of sintering temperature on the morphology of ceramic hollow fibers prepared from niobium pentoxide

Ferreira, Eduardo de Paulo; Bessa, Lidiane Pereira; Cardoso, Vicelma Luiz; Reis, Miria Hespanhol Miranda

doi:10.1111/ijac.13118

Cited by 13 publications

(6 citation statements)

References 45 publications

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“…The mentioned morphological characteristics are due to the increasing temperatures. Consequently, the energy supplied favors the Nb 2 O 5 fiber coalescence effect, resulting in a fiber losing initial shape and introducing new particles, inducing growth until thermodynamic equilibrium [27,28]. Furthermore, according to Figure 2, samples treated at 400 • C, 500 • C, and 600 • C using a heating rate of 1 • C min −1 showed fiber-like morphology with mean diameters of 280, 130, and 84 nm, respectively.…”

Section: Optimization Of the Nb 2 O 5 Ceramic Fibersmentioning

confidence: 96%

Preparation and Application of Nb2O5 Nanofibers in CO2 Photoconversion

et al. 2021

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Increasing global warming due to NOx, CO2, and CH4, is significantly harming ecosystems and life worldwide. One promising methodology is converting pollutants into valuable chemicals via photocatalytic processes (by reusable photocatalysts). In this context, the present work aimed to produce a Nb2O5 photocatalyst nanofiber system by electrospinning to convert CO2. Based on the collected data, the calcination at 600 ∘C for 2 h resulted in the best condition to obtain nanofibers with homogeneous surfaces and an average diameter of 84 nm. As a result, the Nb2O5 nanofibers converted CO2 mostly into CO and CH4, reaching values around 8.5 μmol g−1 and 0.55 μmol g−1, respectively.

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Section: Optimization Of the Nb 2 O 5 Ceramic Fibersmentioning

confidence: 96%

Preparation and Application of Nb2O5 Nanofibers in CO2 Photoconversion

et al. 2021

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“…The cost of ceramic membranes is still a drawback for their widespread use in filtration processes. Some studies are reported on the use of low cost mineral materials to produce ceramic membranes at relative low sintering temperatures (Arzani et al, 2018;Bessa et al, 2017Bessa et al, , 2019Ferreira et al, 2019;Jamalludin et al, 2018;Kumar et al, 2015;Xavier et al, 2019). However, the mechanical resistance of these mineral membranes is still a concern.…”

Section: Membranementioning

confidence: 99%

Performance of asymmetric spinel hollow fiber membranes for hibiscus (Hibiscus sabdariffaL.) extract clarification: Flux modeling and extract stability

Paraíso

Santos

Bessa

et al. 2020

J. Food Process. Preserv.

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This work evaluates a filtration process with and without centrifugation through asymmetric spinel hollow membranes for clarification of hibiscus extract. The centrifugation step increased the steady state flux through the membrane in 23.4%. Complete pore blockage was the main fouling mechanism and polysaccharides, proteins and phenolic compounds were mostly responsible for fouling. After sequential membrane filtration, total soluble solids, total solids and L* color coordinate (luminosity) were reduced from 5.53 to 4.03 °Brix, 47,120 to 37,780 mg/L, and 15.69 to 22.03, respectively. Seven individual bioactive compounds were identified in both extract and permeate by ultra performance liquid chromatography-mass spectrometer. The filtrated extract showed greater stability than the feed extract after 20 storage days (reduction of 43.1% in tea cream formation). The sequential centrifugation and filtration through asymmetric spinel hollow membranes can be potentially applied to produce hibiscus ready-to-drink tea with high antioxidant content. Practical applications Membrane separation process is a filtration technique based on the permeation of solute molecules through a semipermeable membrane. The ceramic membrane is widely used for the purification and clarification of food products, but the cost of material is a disadvantage for the use of filtration processes. This work demonstrated the possibility of exploring the use of asymmetric spinel hollow membrane in clarification and increased stability of teas ready for consumption. This membrane presents composition of 25 wt% of dolomite and 75 wt% of alumina, thus presenting high stability, high permeate flows and low-cost ceramic material. This filtration technology membrane can also be combined as a pre-treatment, such as centrifugation, thus improving filtration efficiency and product stability. Finally, the new membrane used was feasible to produce a hibiscus tea ready-to-drink rich in antioxidants. How to cite this article: Paraíso CM, dos Santos SS, Pereira Bessa L, et al. Performance of asymmetric spinel hollow fiber membranes for hibiscus (Hibiscus sabdariffa L.) extract clarification: Flux modeling and extract stability.

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“…For example, the studies regarding the application of carbon 11 , mullite and alumina 12 , kaolin, quartz, feldspar, sodium carbonate, boric acid and sodium metasilicate 13 , clay 14 , niobium 15 , calcium carbonate and titanium dioxide 16 , and alumina and activated carbon 17 in the field of membrane synthesis. Different low-cost additives are employed as banana peel powder 18 .…”

Section: Introductionmentioning

confidence: 99%

Microfiltration of Oil-in-water Emulsion Using Modified Ceramic Membrane: Surface Properties, Membrane Resistance, Critical Flux, and Cake Behavior

et al. 2022

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Previous studies have demonstrated the improved membrane properties of ceramic membranes made from thermally modified clays with cationic manioc starch and eggshell residue as additives. Based on the employment of these membranes, the relationship between thermally modified clays' structure and cross-flow microfiltration using oil-in-water emulsion was studied (North Sea heavy crude oil). Using raw clay (M1) and thermally pretreated clay (M2), tubular ceramic membranes were prepared by the extrusion method. Critical Flux in different concentrations (250, 500, and 1000 mgL −1 ), fouling mechanisms, and membrane resistance were analyzed. The initial membrane resistance values for M1 and M2 membranes were 2.23 ± 0.32 × 10 12 m −1 and 1.72 ± 0.293 × 10 12 m −1 , respectively. The membrane resistance was reduced by 22% due to the clay modification, which also decreased the contact angle, increased the pore size, and decreased the membrane roughness. Regarding the total organic carbon removal, the M2 membrane had no loss in separation efficiency despite having a slightly larger pore size. These results indicate that the clay-induced structural changes decreased the membrane resistance and improved the permeate flux but did not decrease the oil-in-water emulsion's separation efficiency.

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Influence of sintering temperature on the morphology of ceramic hollow fibers prepared from niobium pentoxide

Cited by 13 publications

References 45 publications

Preparation and Application of Nb2O5 Nanofibers in CO2 Photoconversion

Preparation and Application of Nb2O5 Nanofibers in CO2 Photoconversion

Performance of asymmetric spinel hollow fiber membranes for hibiscus (Hibiscus sabdariffaL.) extract clarification: Flux modeling and extract stability

Microfiltration of Oil-in-water Emulsion Using Modified Ceramic Membrane: Surface Properties, Membrane Resistance, Critical Flux, and Cake Behavior

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