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Treatment of refractory contaminants by sludge-derived biochar/persulfate system via both adsorption and advanced oxidation process

A novel strategy for the removal of refractory organic contaminants was realized through sludge-derived biochar (SDBC)/persulfate (PS) system via both adsorption and advanced oxidation process under ambient conditions. SDBC was prepared by one single step of slow pyrolysis of municipal sewage sludge...

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Published in:	Chemosphere (Oxford) 2017-10, Vol.185, p.754-763
Main Authors:	Wang, Jia, Liao, Zhuwei, Ifthikar, Jerosha, Shi, Lerong, Du, Yunan, Zhu, Jingyi, Xi, Shuang, Chen, Zhuqi, Chen, Zhulei
Format:	Article
Language:	English
Subjects:	4-ChloroPhenol Adsorption Ammonia - chemistry Catalytic oxidation Charcoal - chemistry Chlorophenols - chemistry Municipal landfill leachate Oxidation-Reduction Persulfate Sewage - chemistry Sludge-derived biochar Sulfates - chemistry Temperature Waste Disposal, Fluid - methods Waste Water - chemistry Water Pollutants, Chemical - chemistry
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cited_by	cdi_FETCH-LOGICAL-c428t-27b44e797f5fc67aaf26863f0fcaab3c4c55d06b128e842dbec76380574d8fc73
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container_title	Chemosphere (Oxford)
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creator	Wang, Jia Liao, Zhuwei Ifthikar, Jerosha Shi, Lerong Du, Yunan Zhu, Jingyi Xi, Shuang Chen, Zhuqi Chen, Zhulei
description	A novel strategy for the removal of refractory organic contaminants was realized through sludge-derived biochar (SDBC)/persulfate (PS) system via both adsorption and advanced oxidation process under ambient conditions. SDBC was prepared by one single step of slow pyrolysis of municipal sewage sludge, appeared a porous structure, and contained abundant oxygen-containing functional groups as well as amorphous Fe species. Large surface area and porous structure of SDBC benefitted the adsorption and enrichment of contaminants, while oxygen-containing functional groups and Fe species on the surface were considered as reactive components for the activation of PS. Under conditions of [PS]0 = 1.85 mM, [4-chlorophenol]0 = 0.039 mM, [SDBC]0 = 1 g L−1, pH0 = 6.30 and temperature = 25 °C, the removal of model compound of 4-chlorophenol achieved 92.3%, and this significant performance of SDBC/PS system was consistent in a broad pH window. Radical scavengers and electron paramagnetic resonance (EPR) studies suggested that SDBC successfully activated PS to produce various oxidative radicals. Meanwhile, recycle experiments and Fe3+ leaching tests further demonstrated the stability of SDBC during the activation of PS. Municipal landfill leachate effluent through a membrane bio-reactor was testified as the refractory real wastewater, in which both the removal of total organic carbon and ammonia was significant. Thus, SDBC showed certain advantages in PS activation such as feasible preparation method, remarkable efficiency and stability. These advantages proved SDBC/PS system as an effective strategy of controlling waste by waste, and implicated its potential application in full-scale for the treatment of refractory organic contaminants. [Display omitted] •SDBC is prepared from sewage sludge by one-step synthesize.•SDBC acts as adsorbent, support and catalyst.•Consistent degradation is achieved under various pHs.•This study provided a strategy of waste control by waste.
doi_str_mv	10.1016/j.chemosphere.2017.07.084
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SDBC was prepared by one single step of slow pyrolysis of municipal sewage sludge, appeared a porous structure, and contained abundant oxygen-containing functional groups as well as amorphous Fe species. Large surface area and porous structure of SDBC benefitted the adsorption and enrichment of contaminants, while oxygen-containing functional groups and Fe species on the surface were considered as reactive components for the activation of PS. Under conditions of [PS]0 = 1.85 mM, [4-chlorophenol]0 = 0.039 mM, [SDBC]0 = 1 g L−1, pH0 = 6.30 and temperature = 25 °C, the removal of model compound of 4-chlorophenol achieved 92.3%, and this significant performance of SDBC/PS system was consistent in a broad pH window. Radical scavengers and electron paramagnetic resonance (EPR) studies suggested that SDBC successfully activated PS to produce various oxidative radicals. Meanwhile, recycle experiments and Fe3+ leaching tests further demonstrated the stability of SDBC during the activation of PS. Municipal landfill leachate effluent through a membrane bio-reactor was testified as the refractory real wastewater, in which both the removal of total organic carbon and ammonia was significant. Thus, SDBC showed certain advantages in PS activation such as feasible preparation method, remarkable efficiency and stability. These advantages proved SDBC/PS system as an effective strategy of controlling waste by waste, and implicated its potential application in full-scale for the treatment of refractory organic contaminants. [Display omitted] •SDBC is prepared from sewage sludge by one-step synthesize.•SDBC acts as adsorbent, support and catalyst.•Consistent degradation is achieved under various pHs.•This study provided a strategy of waste control by waste.</description><identifier>ISSN: 0045-6535</identifier><identifier>EISSN: 1879-1298</identifier><identifier>DOI: 10.1016/j.chemosphere.2017.07.084</identifier><identifier>PMID: 28734212</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>4-ChloroPhenol ; Adsorption ; Ammonia - chemistry ; Catalytic oxidation ; Charcoal - chemistry ; Chlorophenols - chemistry ; Municipal landfill leachate ; Oxidation-Reduction ; Persulfate ; Sewage - chemistry ; Sludge-derived biochar ; Sulfates - chemistry ; Temperature ; Waste Disposal, Fluid - methods ; Waste Water - chemistry ; Water Pollutants, Chemical - chemistry</subject><ispartof>Chemosphere (Oxford), 2017-10, Vol.185, p.754-763</ispartof><rights>2017 Elsevier Ltd</rights><rights>Copyright © 2017 Elsevier Ltd. 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Meanwhile, recycle experiments and Fe3+ leaching tests further demonstrated the stability of SDBC during the activation of PS. Municipal landfill leachate effluent through a membrane bio-reactor was testified as the refractory real wastewater, in which both the removal of total organic carbon and ammonia was significant. Thus, SDBC showed certain advantages in PS activation such as feasible preparation method, remarkable efficiency and stability. These advantages proved SDBC/PS system as an effective strategy of controlling waste by waste, and implicated its potential application in full-scale for the treatment of refractory organic contaminants. 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Meanwhile, recycle experiments and Fe3+ leaching tests further demonstrated the stability of SDBC during the activation of PS. Municipal landfill leachate effluent through a membrane bio-reactor was testified as the refractory real wastewater, in which both the removal of total organic carbon and ammonia was significant. Thus, SDBC showed certain advantages in PS activation such as feasible preparation method, remarkable efficiency and stability. These advantages proved SDBC/PS system as an effective strategy of controlling waste by waste, and implicated its potential application in full-scale for the treatment of refractory organic contaminants. 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subjects	4-ChloroPhenol Adsorption Ammonia - chemistry Catalytic oxidation Charcoal - chemistry Chlorophenols - chemistry Municipal landfill leachate Oxidation-Reduction Persulfate Sewage - chemistry Sludge-derived biochar Sulfates - chemistry Temperature Waste Disposal, Fluid - methods Waste Water - chemistry Water Pollutants, Chemical - chemistry
title	Treatment of refractory contaminants by sludge-derived biochar/persulfate system via both adsorption and advanced oxidation process
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