Wyniki wyszukiwania - BazTech

1

Low-cost removal of basic red 9 using cow dung ash

Arya Raj Kumar, Meena Ghanshyam, Thapliyal Devyani, Barman Sanghamitra, Halder Gopinath, Shandilya Pooja

Chemical and Process Engineering

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2022

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Vol. 43, nr 2

229-–242

EN

In the present study, basic red 9 had been removed from synthetic waste water using animal waste. Cow dung ash had been prepared and characterized by scanning electron microscope. Morphology analysis shows very fine particles of less than 1 μm. The pH analysis study favours a pH of 8.5 for maximum dye removal. The removal of basic red 9 was very fast on cow dung ash. Percentage dye removal was 80.24% and 95.24 in 5 minutes and 90 minutes, respectively at initial dye concentration of 10 ppm.

2

Removal of reactive dyes from aqueous solutions using ultrafiltration membranes

Ahmed Arif Eftekhar, Majewska-Nowak Katarzyna, Grzegorzek Martyna

Environment Protection Engineering

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2021

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Vol. 47, nr 3

109--120

EN

The removal of five reactive dyes varying in molecular weight (Reactive Orange 16, Remazol Brilliant Blue R, Reactive Orange 20, Reactive Black 5, Reactive Red 120) was evaluated by using flat ultrafiltration membranes made of polyethersulfone (PES) and regenerated cellulose (C) characterized by various cut-off values (5, 10, and 30 kDa). The ultrafiltration process was performed in a dead-end mode under the transmembrane pressure range of 0.05–0.2 MPa. Dye concentration in model solutions was equal to 100 mg/dm3. The separation efficiency of all tested dyes was strongly dependent on the membrane type and the membrane cut-off, as well as on the applied pressure. Unexpectedly, the molecular weight of the tested reactive dyes had a minor impact on the dye removal effectiveness. The ultrafiltration membranes made of polyethersulfone and regenerated cellulose can be used in reactive dye removal on the condition that the membrane cut-off is not higher than 10 kDa. The PES and C membranes enable the separation of reactive dyes by 80–97%, and 45–89%, respectively.

3

The effect of external mass transfer resistance on the adsorption rate in a liquid phase

Piątkowska S., Gwadera M.

Technical Transactions

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2018

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Vol. 115, iss. 3

79--90

EN

The paper presents the results of studies on the adsorption of a dye from a water solution on activated carbon. An activated carbon with the best adsorption properties for the dye used in the studies was selected experimentally. The equilibrium and kinetic measurements for the selected system were conducted. Constants of linear, Langmuir and Freundlich isotherms were determined. The obtained results have shown that increasing the flow rate of the solution in an adsorber results in increasing the adsorption rate.

PL

W pracy zaprezentowano wyniki badań adsorpcji barwnika z roztworu wodnego na węglu aktywnym. Dokonano eksperymentalnego doboru węgla aktywnego o najlepszych właściwościach adsorpcyjnych dla stosowanego w badaniach barwnika. Wykonano badania równowagi i kinetyki adsorpcji dla badanego układu. Wyznaczono stałe w równaniu izotermy liniowej, Langmuira i Freundlicha. Otrzymane wyniki wskazują, że zwiększenie natężenia przepływu roztworu w adsorberze skutkuje zwiększeniem szybkości adsorpcji.

4

Sorpcja barwników kwasowych i reaktywnych z roztworów wodnych na minerałach

Greluk M.

Przemysł Chemiczny

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2013

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T. 92, nr 5

646-654

5

Biosorpcja barwników z użyciem materiałów pochodzenia roślinnego

Witek-Krowiak A.

Przemysł Chemiczny

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2012

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T. 91, nr 4

613-620

PL

Zaprezentowano przegląd literatury dotyczącej usuwania barwników organicznych z roztworów wodnych z zastosowaniem biosorpcji. W szczególności przedstawiono wyniki badania biosorpcji na różnorodnych materiałach pochodzenia roślinnego, w tym nadziemnych częściach roślin (drewno, pędy, kora, liście), fragmentach roślinnych, a także na materiałach odpadowych z przemysłu spożywczego (pestki, nasiona, łupiny orzechów, wytłoki). Materiały te stanowią grupę sorbentów tanich i wydajnych, będących konkurencją dla konwencjonalnych sorbentów, dzięki dużym pojemnościom sorpcyjnym względem usuwanych związków.

EN

A review, with 113 refs., of plant materials used as biosorbents for removal of org. dyes from aq. solns.

6

Dye removal efficiency of virgin activated carbon and activated carbon regenerated with Fenton's reagent

Dąbek L., Ozimina E., Picheta-Oleś A.

Environment Protection Engineering

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2012

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Vol. 38, nr 1

5-13

EN

The effectiveness of virgin and regenerated activated carbons was established for crystal violet removed from aqueous solutions. Granular activated carbon, WDex, saturated with the dye was regenerated using classic or modified Fenton's reagent, Fe2+/H2O2 and Fe2+/Ox, respectively. The application of modified Fenton's reagent resulted in the formation of hydrogen peroxide directly in the regeneration solution. The study was conducted under static and dynamic conditions. The sorptive capacities of virgin and regenerated WDex activated carbons for crystal violet were reported to be similar (approximately 42 mg/g). The results of the dynamic sorption show that under the predetermined conditions the regenerated activated carbons were better sorbents. The amount of dynamic sorption was approx. 17.6 g/dm3. The longest breakthrough time (3970 min) and the longest saturation time (11 600 min) were observed for the carbon bed regenerated with modified Fenton's reagent.