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1

Preparaty do mycia o działaniu przeciwdrobnoustrojowym na bazie nadtlenku wodoru

Korol Magdalena, Sikora Elżbieta

Przemysł Chemiczny

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2022

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T. 101, nr 9

668--671

PL

Epidemia Sars-CoV-2 spowodowała ogromne zainteresowanie środkami wykazującymi działanie przeciwdrobnoustrojowe. Podstawą takiego produktu jest substancja czynna (biocyd). Najbardziej popularne biocydy stosowane w preparatach o działaniu dezynfekującym stanowią alkohole, czyli etanol i izopropanol. Przedstawiono rynek produktów dezynfekujących w Polsce. Szczególną uwagę zwrócono na potencjał nadtlenku wodoru jako substancji aktywnej charakteryzującej się szerokim spektrum aktywności przeciwdrobnoustrojowej przeciw bakteriom, drożdżom, grzybom i wirusom oraz bezpieczeństwem dla środowiska. Omówiono również źródła H₂O₂ na rynku polskim.

EN

A review, with 30 refs., of biocides used in prepns. with disinfecting properties was presented. Their range of biocidal activity, speed and effectiveness of action as well as impact on humans and the environment were discussed. H₂O₂ was shown to be an active substance with a broad spectrum of antimicrobial activity against bacteria, yeasts, fungi, viruses and spores. Its phys. chem. properties, stability and the method of industrial production in Poland were discussed.

2

Nitrogen removal and sludge reduction in anoxic-aerobic sequencing batch reactor with alkaline-H2O2 disintegration

Gürtekin Engin

Ecological Chemistry and Engineering. S

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2022

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Vol. 29, nr 4

511--523

EN

In this study, alkaline-H2O2 sludge disintegration was combined with anoxic-aerobic sequencing batch reactor (SBR). The carbon obtained by alkaline-H2O2 sludge disintegration was used in the denitrification process and sludge reduction was achieved in the SBR process. In the SBR process, a 9 % increase in nitrogen removal efficiency was achieved with the improvement in the denitrification process. A sludge reduction efficiency of 43 % was obtained in the SBR process with alkaline-H2O2 sludge disintegration. A synergistic effect was obtained in the combination of alkaline and H2O2 methods and the sludge reduction increased by 8 %. By combining sludge disintegration into the SBR process, it is possible to reduce the amount of sludge formed, which is an important environmental problem, and to provide carbon source for the denitrification process.

3

Dissolution behavior of sulfur and some metals from spent petroleum catalysts by alkaline solutions

Le Minhnhan, Lee Manseung

Physicochemical Problems of Mineral Processing

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2019

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Vol. 55, iss. 5

1217--1226

EN

The petroleum refining industry produces a large amount of spent catalysts which contain sulfur and some valuable metals. During the recovery of these valuable metals, sulfur should be processed and removed from the surface of the spent catalyst. Several chemical reagents including NaOH, Na2CO3, H2O2, CS2, and decanol were employed to investigate the removal of sulfur from the spent catalysts. NaOH and ultrasound-assisted oxidative treatment with H2O2 showed better performance than the other reagents for the removal of sulfur from spent catalyst. Sulfur and valuable metals dissolved together to the solution by using ultrasound-assisted oxidative treatment with H2O2, while the covered sulfur was removed from the spent catalyst without affecting the dissolution of valuable metals. The removal of sulfur as well as the leaching of valuable metals was discussed on the basis of oxidation and reduction reaction. The optimum conditions for sulfur removal were chosen as follows: temperature, 600C; pulp density, 20 g/dm3; reaction time, 1.5 h; stirring speed, 800 rpm; and NaOH concentration, 0.5 M. The obtained results can be applied to develop an environment-friendly process to treat sulfur from the spent catalysts.

4

Activating flotation of chalcopyrite using CuSO4 and H2O2 from the cyanide tailings

Ai G., Yan H., Qiu T., Liu C.

Physicochemical Problems of Mineral Processing

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2018

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Vol. 54, iss. 2

578--589

EN

The effects of CuSO4 and H2O2 on the flotation behavior of cyanide chalcopyrite were investigated by flotation tests, microcalorimetry and X-ray photoelectron spectroscopy (XPS). The underlying activation mechanism was studied in the perspective of micro-thermodynamics and surface properties. The flotation results indicated that cyanide chalcopyrite was strongly inhibited by sodium cyanide, with the maximum flotation recovery of 22.5% only. CuSO4 and H2O2 significantly improved the flotation of cyanide chalcopyrite, and the flotation recovery was increased to 92.28% and 84.35%, respectively. The micro-thermodynamics results indicated that the adsorption heat of butyl xanthate on cyanide chalcopyrite surface increased after the addition of CuSO4 and H2O2, as well as the reaction order. CuSO4 and H2O2 can significantly improve the adsorption of butyl xanthate on the surface of cyanide chalcopyrite by decreasing the apparent activation energy by 80.11% and 66.54%, respectively. XPS analysis indicated that the CuCN was generated on the surface of cyanide chalcopyrite, leading to the loss of sulfur and inhibiting the adsorption of collectors. As a result, the flotation of cyanide chalcopyrite was depressed. It is considered that, CuSO4 and H2O2 can improve the flotation of cyanide chalcopyrite by eleminating CuCN from its surface and increasing the concentration of S by 57.02% and 37.48%, respectively.

5

Influence of H2O2 and O3 on PGM Extraction from Used Car Catalysts

Fornalczyk A., Willner J., Gajda B., Sedlakova-Kadukova J.

Archives of Metallurgy and Materials

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2018

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Vol. 63, iss. 2

963--968

EN

Catalytic converters contain the catalytic substance in their structure, which is a mixture of Platinum Group Metals (PGMs). The prices of these metals and a growing demand for them in the market, make it necessary to recycle spent catalytic converters and recovery of PGMs. In the study, the effect of ozone and hydrogen peroxide application on the possibility of extracting PGM from used car catalysts was investigated. The catalytic carrier was milled, sieved and then the fractions with the desired grain size were treated with the appropriate HCl mixture and 3%, 5%, 10%, 15% and 30% H2O2, respectively, and the tests were also carried out at temperature 333 K. Ozone tests were conducted with the O3 flow in the range of 1,3,5 g/h. Samples for analysis were collected after 30 min, 1 h, 2 h, 3 h and after 4 h, respectively. The residue after the experiments and filtration process was also analysed. The obtained results confirmed the assumption that PGMs can be extracted using hydrochloric acid with the addition of H2O2 or ozone as oxidants. It allows to significantly intensify the carried out reactions and to improve the rate of PGMs transfer to the solution.

6

Catalytic oxidation of PAHs in wastewater

Turek A., Włodarczyk-Makuła M.

Civil and Environmental Engineering Reports

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2016

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No. 20(1)

179--190

EN

The aim of the investigations was to determine the effectiveness of the removal of 4, 5 -ring PAHs from coking wastewater using dihydrogen dioxide in the presence of a cobalt, platinum or titanium catalyst. A dose 7.4 mL of dihydrogen dioxide in the amount of and 14.8 mL/L of the analyzed sample were added to the samples. The samples were shaken and stored under laboratory conditions for 12 hours. The concentration of PAHs before and after the oxidation process were determined. The quantitative and qualitative chromatographic analysis was carried out using a gas chromatograph coupled with a mass spectrometer (GC-MS). The total concentration of 8 PAHs before oxidation reached the value of 9150 ng/L The concentration of 4-ring compounds and 5-ring PAHs were equal to 6390 ng/L and 2760 ng/L, respectively. The highest decrease (93%) the sum of 8 hydrocarbons using a dose of oxidizer 7.4 ml/L and in the presence of titanium catalyst was achieved.

PL

Celem badania było określenie skuteczności usuwania 4, 5- pierścieniowych WWA ze ścieków koksowniczych przy użyciu ditlenku diwodoru w obecności katalizatora kobaltowego, platynowego i tytanowego. Do próbki dodawano odpowiednią ilość ditlenku diwodoru i katalizatorów. Dawka utleniacza wynosiła 7,4 ml i 14,8 ml/l. Próbki mieszano i pozostawiono w warunkach laboratoryjnych przez 12 godzin. Po tym czasie oznaczono stężenie WWA. Ilościową i jakościową analizę chromatograficzną przeprowadzono przy użyciu chromatografu gazowego sprzężonego ze spektrometrem masowym. Największy ubytek (93%) sumarycznej ilości ośmiu WWA osiągnięto przy zastosowaniu dawki utleniacza 7,4 ml/l analizowanych ścieków oraz katalizatora tytanowego.

7

Usuwanie WWA (C13-C16) ze ścieków przemysłowych z wykorzystaniem ditlenku diwodoru

Turek A., Włodarczyk-Makuła M.

Zeszyty Naukowe. Inżynieria Środowiska / Uniwersytet Zielonogórski

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2012

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nr 145 (25)

56-64

PL

Podstawowym założeniem prowadzonych badań było określenie wpływu ditlenku diwodoru na usuwanie wybranych WWA ze ścieków przemysłowych. Do badań zastosowano ditlenek diwodoru w dawkach: 50 mg/l, 100 mg/l, 300 mg/l, 600 mg/l, 900 mg/l, 1000 mg/l i 2000 mg/l. Analizę ilościowo-jakościową WWA prowadzono z wykorzystaniem chromatografu gazowego ze spektrometrem masowym. Suma pięciu analizowanych węglowodorów zawierających od 13 do 16 atomow węgla w cząsteczce (z listy 16 EPA) wynosiła 16 [mi]g/l. Po procesie utleniania największe obniżenie sumarycznej zawartości badanych WWA, sięgający 82%, odnotowano przy dawce utleniacza wynoszącej 900 mg/l.

EN

The paper presents results of studies on oxidation of selected PAHs. For the oxidation of dihydrogen dioxide used in doses of 50 mg/l, 100 mg/l, 300 mg/l, 600 mg/l, 900 mg/l, 1000 mg/l and 2000 mg/l. Quantitative and qualitative analysis of PAHs was performed using a gas chromatograph mass spectrometer. The sum of five analyzed hydrocarbons (from a list of 16 EPA) was 16 ug /L. After oxidation of the greatest deficit of the total content of PAHs studied, reaching 82%, was recorded at a dosage of oxidant of 900 mg/L.

8

Pogłębione utlenianie związków powierzchniowo czynnych w ściekach

Czech B.

Chemik

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2012

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Vol. 66, nr 12

1314--1325

PL

W niniejszej pracy zastosowano metody fotokatalityczne do usuwania Tritonu X-100 i płynu do mycia naczyń ze ścieków. Jako fotokataliza ta użyto TiO2 naniesionego na Al2O3. Fotokatalizatory były modyfikowane dodatkiem Cu lub Zn za pomocą metod Klasycznej i Podwójnej Impregnacji. Materiały fotokatalityczne poddano charakterystyce fizykochemicznej za pomocą adsorpcji-desorpcji N2, XRF, XRD, SEM-EDX, spektroskopii Ramana i UV-Vis. Wszystkie katalizatory wykazały się skutecznością w usuwaniu badanych surfaktantów. Dodatek H2O2 (0.01obj.%) nie spowodował polepszenia skuteczności oczyszczania. Najlepsze wyniki uzyskano w czasie pierwszych dwóch godzin oczyszczania.

EN

Photocatalytic methods were applied to remove Triton X-100 and wash-up liquid from wastewater. For the studies Al2O3 supported TiO2 photocatalysts were used. They were modified with Cu or Zn using Classical or Double Impregnation Method. Photocatalytic materials were characterised by N2 adsorption-desorption, XRF, XRD, SEM-EDX, Raman and UV-Vis spectroscopy. All the catalysts were efficient in the removal of surfactants. The addition of H2O2 (0.01vol.%) does not deepen the removal of studied pollutants. The best results were obtained during first two hours of treatment.

9

Wstępne badania degradacji barwnika Acid Green 16 w systemie H202/wiórki stalowe

Barbusiński K., Pieczykolan B.

Inżynieria i Ochrona Środowiska

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2009

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T. 12, nr 1

35-49

PL

Przeprowadzono badania degradacji barwnika Acid Green 16 za pomocą zmodyfikowanego odczynnika Fentona w dwóch reaktorach przepływowych, w których wykorzystano wiórki stalowe jako alternatywne źródło jonów żelaza. Reaktory różniły się wysokością i objętością zastosowanego wypełnienia z wiórków. Nadtlenek wodoru wprowadzano zarówno przed reaktorami (wariant I), jak i za reaktorami (wariant II). W poszczególnych seriach badań różnicowano dawki H2O2 (od 75 do 1250 mg/dm3), początkowe wartości pH ścieków (pH 3 i 4,5) oraz stopień ich alkalizacji (pH 9 i 12) po procesie Fentona. Porównano również efektywność zmodyfikowanego i klasycznego odczynnika Fentona w odbarwianiu badanych ścieków. Wykazano, że możliwe jest skuteczne zastąpienie klasycznego odczynnika Fentona modyfikacją z wiórkami stalowymi w systemie przepływowym do oczyszczania ścieków barwnych. W systemie przepływowym istotny wpływ na wielkość dawki H2O2 wymaganej do odbarwienia ścieków miało miejsce wprowadzania nadtlenku wodoru, początkowa wartość pH ścieków, a także czas kontaktu ścieków z wiórkami w reaktorze. Znacznie lepsze efekty odbarwiania uzyskiwano dla początkowego pH 3 w porównaniu do pH 4,5. Duże znaczenie odgrywał też stopień końcowej alkalizacji ścieków po procesie Fentona. Efektywność odbarwiania ścieków przy korekcie do pH 9 wynosiła 98,7 ÷ 99,8% oraz 99,8 ÷ 99,9% przy korekcie do pH 12.

EN

A modified Fenton process, using heterogeneous catalyst (swarf) as an alternative source of iron ions, was investigated for degradation of dye Acid Green 16. The experiments were carried out in two continuously-flow reactors consisting a glass column (diameter of 2.48 cm) filled with swarf. The reactors differed in bed height (3.5 and 7 cm in the first and the second reactor respectively). The swarf was made during metal sawing and the particle size of swarf was in the range of 1.2 ÷ 4.0 mm. H2O2 was dosed both before (variant I) and after (variant II) the reactors. The effect of H2O2 dosage (from 75 to 1250 mg/dm3), initial pH (3 and 4.5) and pH alkalisation after Fenton's process (pH 9 and 12) on colour removal efficiency was examined. Moreover, the effectiveness of the modified and classical Fenton's process was compared. The modified continuous Fenton process was found to be very efficient for discoloration of simulated wastewater containing 100 mg/dm3 Acid Green 16. The experimental results clearly showed that swarf could be used to replace iron salts as a catalyst in this modification. Such a system can work effectively both where H2O2 is dosing into the wastewater before and after the reactors. At the approximate process's parameters (dosage of H2O2 and initial pH) there were obtained similar effects of Acid Green 16 degradation in both classical and modified Fenton process. The dosage of H2O2, volume of swarf bed, initial pH and the place of H2O2 dosing, had fundamental impact on discoloration efficiency in the modified Fenton process. Much better results of colour removal (98.7 ÷ 99.8%) were achieved when initial pH value equalled 3.0. At initial pH value of 4.5 the results were worse (48.8 ÷ 80.6%). A very important factor was also the pH value after Fenton process. The increase of pH from 9 to 12 significantly improved the discoloration efficiency, mainly due to better precipitate iron compounds, which caused a specific colour of wastewater. It was also found, that in the case where H2O2 was added into the wastewater before reactor, it is possible to increase the efficiency of colour removal in significant way by leaving effluent after Fenton process for longer time without neutralisation. It made possible, in some range, to decrease dosages of H2O2, and the same lowering costs of wastewater treatment. The obtained results encourage to further research on this subject in order to more precise evaluation of particular parameters of continuously-flow reactor and consequently to minimize costs and maximize treatment efficiency. The presented modification of Fenton process is relatively economical because the swarf can be used as a discard material e.g. from machining.

10

Spectrophotometric initial-rate method for determination of neomycin in ophthalmic drops

Sunaric S. M., Mitic S. S., Miletic G. Z., Kostic D.A., Trutic N. V.

Chemia Analityczna

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2007

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Vol. 52, No. 5

810-821

EN

Reaction between neomycin. H2, O2 and Cu(II) in carbonate buffer was investigated. It was found that Cu(Il) reacts with H2O2 in the presence of HCO2/CO2 giving the product which absorbs at 364 nm. Neomycin caused the reaction rate to decrease. Reaction progress was monitored at 3 64 nm and its dependence on temperature, pH, and concentration of reagents was studied applying the initial-rate method. The pseudo-first order kinetics of antibiotic degradation by H,O, and Cu(II) was observed and relative rate constant k was calculated at 298 K, 303 K, and 308 K. Based on this reaction, the kinetic spectrophotometric method for determination of neomycin was developed. The proposed method was applied to determination of neomycin in ophthalmic drops.

PL

Badano reakcję neomycyny z nadtlenkiem wodoru w obecności Cu(II), w środowisku buforu węglanowego. Stwierdzono, że w obecności jonów HCO3/CO3Cu(II) reaguje z H2O2dając produkt wykazujący absorpcję przy di. fali 364 nm. Obecność neomycyny powoduje spadek szybkości tej reakcji. Przebieg reakcji monitorowano, przy długości fali 364 nm, badając zależność jej szybkości od temperatury pH i stężenia reagentów metodą szybkości początkowej. Badano kinetykę reakcji rozkładu antybiotyku przez H202 i Cu(II) w warunkach pseudopierwszego rzędu i wyznaczono względną stalą szybkości kr w temperaturze: 298, 303 i 308 K. Na podstawie tej reakcji opracowano kinetyczną, spektrofotometryczną metodę oznaczania neomycyny. Metodę tę zastosowano do oznaczania neomycyny w oftal-micznych postaciach leku.

11

Wpływ działania plazmy H2O2 na właściwości filmów polisulfonowych

Kowal J., Czajkowska B., Muratów-Boduch S., Organisciak A., Trybalska B.

Inżynieria Biomateriałów

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2005

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R. 8, nr 47-53

148--151