Your search keyword '"İskender G"' showing total 6 results

1. Reducing the Toxicity and Recalcitrance of a Textile Xenobiotic Through Ozonation

Author

Babuna, F. Germirli, Oructut, N., Arslan-Alaton, I., Iskender, G., Okay, O., Gökçekus, Hüseyin, editor, Türker, Umut, editor, and LaMoreaux, James W., editor

Published

2011

2. Pretreatment of Ceftriaxone Formulation Effluents: Drawbacks and Benefits

Author

Tezgel, T., Babuna, F. Germirli, Arslan-Alaton, I., Iskender, G., Okay, O., Gökçekus, Hüseyin, editor, Türker, Umut, editor, and LaMoreaux, James W., editor

Published

2011

3. Effect of chemical treatment on the acute toxicity of two commercial textile dye carriers.

Author

Arslan-Alaton, I., Iskender, G., Ozerkan, B., Babuna, F. Germirli, and Okay, O.

Subjects

*ACUTE toxicity testing, *TEXTILE chemicals, *COAGULATION, *CHEMICAL oxygen demand, *FLOCCULATION, *TEXTILE waste, *TEXTILE dyeing

Abstract

In the present experimental study, the effect of chemical treatment (coagulation-flocculation) on the acute toxicity exerted by two commercial dye carriers (called Carrier A and B herein) often used in the textile industry was investigated. Two different test organisms were selected to elucidate the situations in activated sludge treatment systems (activated sludge microorganisms) as well as in receiving water bodies (ultimate marine discharge). According to the results of a comprehensive analysis covering COD removal efficiencies, sludge settling characteristics and operating costs involved in coagulation-flocculation, the optimum treatment conditions were defined as follows; application of 750 mg/L ferrous sulphate at a pH of 9.0 for Carrier A; and application of 560 mg/L ferrous sulphate at a pH of 9.0 for Carrier B. The acute toxicities of both dye carriers towards marine microalgea Phaeodactylum tricornutum could be reduced significantly after being subjected to coagulation-flocculation. Fair toxicity removals (towards heterotrophic mixed bacterial culture accommodated in activated sludge treatment) were obtained with coagulation-flocculation for both of the careers under investigation. [ABSTRACT FROM AUTHOR]

Published

2007

4. Treatability of cefazolin antibiotic formulation effluent with O3 and O3/H2O2 processes.

Author

Iskender, G., Sezer, A., Arslan-Alaton, I., Babuna, F. Germirli, and Okay, O. S.

Subjects

*ACUTE toxicity testing, *ANTIBIOTICS assay, *MICROBIAL metabolites, *PHARMACEUTICAL biotechnology, *MARINE algae, *OZONIZATION

Abstract

The effect of applying ozonation and perozonation to antibiotic cefazolin-Na formulation effluents were investigated in this study. Twenty minutes of ozonation at a rate of 1,500 mg/L-h was observed to remove COD by 38%, whereas a COD removal efficiency of 40% was achieved via H2O2 enhanced ozonation (same conditions + 31.25 mM H202). Both of the pretreatment alternatives were monitored to elevate the BOD5/COD ratio from 0.01 to 0.08. The initially inert COD was reduced by 38% using ozonation and by 60% employing H2O2 enhanced ozonation. In terms of the lowest achievable effluent COD levels after bio-treatment, ozonation was observed to yield a residual COD of 205 mg L-1, while a residual COD of 135 mgL-1 was involved for perozonation. According to the results of acute toxicity on Phaedactylum tricornutum, ozonated and perozonated samples exhibited more toxicity than the untreated effluent after 4 days. The activated sludge inhibition test demonstrated that both of the pretreatment alternatives efficiently eliminated the inhibition of investigated formulation effluent. [ABSTRACT FROM AUTHOR]

Published

2007

5. Ozonation of synthetic versus natural textile tannins: recalcitrance and toxicity towards Phaeodactylum tricornutum.

Author

Babuna, F. Germirli, Yilmaz, Z., Okay, O. S., Alaton, I. Arslan, and Iskender, G.

Subjects

TANNINS, INDUSTRIAL pollution, TEXTILE industry, MICROALGAE, OZONIZATION, OZONIZATION of water, INDUSTRIAL waste purification

Abstract

A sound in-plant pollution control strategy can only be defined by paying due attention to bio-recalcitrance and toxicity. In this context the levels of toxicity and inert COD introduced to textile dyebath discharges by two alternative auxiliary chemicals, namely natural tannin (NT) and synthetic tannin (ST), were investigated. The effect of 40 minutes ozonation at 1,000 mg h-1 at pH 3.5 on the segregated effluent streams containing the above-mentioned tannin formulations was evaluated in terms of changes in toxicity and recalcitrance. The effect of ozonation on the COD distribution of raw and ozonated NT and ST samples according to their molecular weight cut-offs was also assessed. Both untreated tannin formulations exerted high acute toxicity towards marine microalgae Phaeodactylum tricornutum. Moderate decrease in the toxicity levels of both tannins was observed upon ozonation. The raw NT formulation with a COD content more than twice that of its alternative raw ST had an initially inert soluble COD content of only 25 mg/L, while the initially inert COD was 135 mg/L for ST. As the initially inert soluble COD content of NT was considerably lower, this textile auxiliary did not need chemical pretreatment to improve its biodegradability. On the other hand, the initially inert soluble COD content of ST was reduced by 70% by ozone pretreatment. In terms of residual COD contents achievable after passing through a biological treatment system, raw NT and pretreated ST formulations yielded 100 and 95 mg/L COD, respectively. The highest proportion of COD (46% for NT and 38% for ST) was found in the < 1 kDa range. The same fraction increased to 93% for NT after ozonation, while for ST no significant change was observed in the COD distribution of the molecular weight cut-offs after ozonation. [ABSTRACT FROM AUTHOR]

Published

2007

6. The application of ozonation for the detoxification and biodegradability improvement of a textile auxiliary: Naphtalene sulphonic acid

Author

Germirli Babuna, F., Camur, S., Alaton, I. Arslan, Okay, O., and Iskender, G.

Subjects

*WATER purification adsorption, *OZONIZATION of water, *SALINE water conversion, *DETOXIFICATION (Substance abuse treatment), *BIODEGRADATION, *SULFONIC acids, *HYDROCARBONS, *FIBERS, *SALINE waters

Abstract

Abstract: From the environmental point of view, the textile industry dealing with operations such as fibre and fabric preparation, dyeing, finishing, printing etc. can be identified among the very chemical intensive sectors. Therefore the characterisation and management of textile auxiliaries within aqueous dyehouse effluents are becoming a challenging responsibility for the textile manufacturer. Although there is much speculation about the types and quantities of these chemicals released to the environment during textile manufacturing, there are only few data about the behaviour of these chemicals both in receiving water bodies and in wastewater treatment systems. Besides current understanding of industrial pollution control emphasizes the relevance of segregated stream management. This issue gains a further importance when segregated effluent streams containing auxiliaries with xenobiotic nature are considered. In this context the objective of the present study is to investigate the effect of ozonation on the toxicity and biodegradability of a naphthalene sulphonic acid derivative commonly applied in textile mills. The naphthalene sulphonic acid derivative prepared to simulate the actual situation in a dyebath discharge from a textile finishing industry has a COD of 1150mg/l and a BOD of 10mg/l, and pH of 5.5. Due to the highly soluble characteristic of the sulphonic groups the sample is completely soluble in nature. Ozonation experiments [conducted under the following conditions: 1200mgO3/h and 2400mgO3/h both at pH 5 and pH 11; 5325mgO3/h at both pH 12 and at the original pH (pH=5.5)] show that the application of 5325mgO3/h ozone for 30min at original pH can be considered as the optimum condition which is further evaluated in terms of inert COD fractions and acute toxicity. According to the experimental findings, raw naphtalene sulphonic acid derivative has an inert COD content of 1027mg/l. With ozone application of 30min 5325mgO3/h at original pH the inert COD concentration can be reduced down to 295mg/l. The molecular weight cut-off experiments indicate that 58% of the COD originates from the 10kDa–30kDa fraction for the raw naphtalene sulphonic acid derivative. Due to chemical degradation under ozone, the fraction with the highest COD shifted to the <1kDa range for the ozonated naphtalene sulphonic acid derivative. Since the results related to the acute toxicity (in 50% v/v EC values) towards the marine algae Phaeodactylum tricornutum indicate that the toxicity of the formulation under investigation is increased considerably, it is recommended to run a further investigation by the use of another chemical oxidant instead of ozone. [Copyright &y& Elsevier]

Published

2009