Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine:
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| Format: | Electronic eBook |
|---|---|
| Language: | English |
| Published: |
Alexandria, VA
Water Environment Research Foundation
2012
|
| Subjects: | |
| Online Access: | FAW01 FAW02 Volltext |
| Item Description: | Electronic book text. - "INFR6SG09." Carbamazepine is hydrophilic anthropogenic pharmaceutical found in wastewater effluents that is quite resistant to removal by conventional wastewater treatment processes. Hydroxyl radical-based advanced oxidation process can transform carbamazepine into degradation products but cannot mineralize it in an economically efficient manner. This study evaluated the combination of ultraviolet plus hydrogen peroxide (UV-H 2 O 2)-based advanced oxidation and biodegradation to enable carbamazepine removal; specifically, to determine whether the products of the advanced oxidation of carbamazepine can be further biodegraded by activated sludge microbial communities. The fate of 14 C--carbamazepine was followed through bench-scale advanced oxidation followed by biodegradation using liquid scintillation counting and mass spectrometry equipped with a radiation detector. The results illustrate that carbamazepine oxidation products can be mineralized by activated sludge bacteria. This outcome suggests that combining advanced oxidation with a biologically active filtration treatment step can be effective for carbamazepine removal. This same treatment strategy should be evaluated for its effectiveness with other biologically recalcitrant organic micropollutants. Advanced oxidation followed by biodegradation may be a viable option for applying tertiary wastewater treatment to achieve trace contaminant removal |
| Physical Description: | 1 Online-Ressource |
| ISBN: | 178040042X 9781780400426 |
Staff View
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| 500 | |a Electronic book text. - "INFR6SG09." | ||
| 500 | |a Carbamazepine is hydrophilic anthropogenic pharmaceutical found in wastewater effluents that is quite resistant to removal by conventional wastewater treatment processes. Hydroxyl radical-based advanced oxidation process can transform carbamazepine into degradation products but cannot mineralize it in an economically efficient manner. This study evaluated the combination of ultraviolet plus hydrogen peroxide (UV-H 2 O 2)-based advanced oxidation and biodegradation to enable carbamazepine removal; specifically, to determine whether the products of the advanced oxidation of carbamazepine can be further biodegraded by activated sludge microbial communities. The fate of 14 C--carbamazepine was followed through bench-scale advanced oxidation followed by biodegradation using liquid scintillation counting and mass spectrometry equipped with a radiation detector. The results illustrate that carbamazepine oxidation products can be mineralized by activated sludge bacteria. This outcome suggests that combining advanced oxidation with a biologically active filtration treatment step can be effective for carbamazepine removal. This same treatment strategy should be evaluated for its effectiveness with other biologically recalcitrant organic micropollutants. Advanced oxidation followed by biodegradation may be a viable option for applying tertiary wastewater treatment to achieve trace contaminant removal | ||
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| indexdate | 2024-07-10T07:17:42Z |
| institution | BVB |
| isbn | 178040042X 9781780400426 |
| language | English |
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| spelling | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine by Karl Linden ... [et al.] Alexandria, VA Water Environment Research Foundation 2012 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier Electronic book text. - "INFR6SG09." Carbamazepine is hydrophilic anthropogenic pharmaceutical found in wastewater effluents that is quite resistant to removal by conventional wastewater treatment processes. Hydroxyl radical-based advanced oxidation process can transform carbamazepine into degradation products but cannot mineralize it in an economically efficient manner. This study evaluated the combination of ultraviolet plus hydrogen peroxide (UV-H 2 O 2)-based advanced oxidation and biodegradation to enable carbamazepine removal; specifically, to determine whether the products of the advanced oxidation of carbamazepine can be further biodegraded by activated sludge microbial communities. The fate of 14 C--carbamazepine was followed through bench-scale advanced oxidation followed by biodegradation using liquid scintillation counting and mass spectrometry equipped with a radiation detector. The results illustrate that carbamazepine oxidation products can be mineralized by activated sludge bacteria. This outcome suggests that combining advanced oxidation with a biologically active filtration treatment step can be effective for carbamazepine removal. This same treatment strategy should be evaluated for its effectiveness with other biologically recalcitrant organic micropollutants. Advanced oxidation followed by biodegradation may be a viable option for applying tertiary wastewater treatment to achieve trace contaminant removal TECHNOLOGY & ENGINEERING / Environmental / Pollution Control bisacsh SCIENCE / Applied Sciences bisacsh Sewage Purification Oxidation Carbamazepine Biodegradation Linden, Karl Sonstige oth http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=605160 Aggregator Volltext |
| spellingShingle | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine TECHNOLOGY & ENGINEERING / Environmental / Pollution Control bisacsh SCIENCE / Applied Sciences bisacsh Sewage Purification Oxidation Carbamazepine Biodegradation |
| title | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine |
| title_auth | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine |
| title_exact_search | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine |
| title_full | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine by Karl Linden ... [et al.] |
| title_fullStr | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine by Karl Linden ... [et al.] |
| title_full_unstemmed | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine by Karl Linden ... [et al.] |
| title_short | Demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine |
| title_sort | demonstrating advanced oxidation coupled with biodegradation for removal of carbamazepine |
| topic | TECHNOLOGY & ENGINEERING / Environmental / Pollution Control bisacsh SCIENCE / Applied Sciences bisacsh Sewage Purification Oxidation Carbamazepine Biodegradation |
| topic_facet | TECHNOLOGY & ENGINEERING / Environmental / Pollution Control SCIENCE / Applied Sciences Sewage Purification Oxidation Carbamazepine Biodegradation |
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