Anaerobic Co-Digestion of table olive debittering & washing Effluent, cattle manure and pig manure in batch and high volume laboratory anaerobic digesters: Effect of temperature

The prospective of table olive debittering & washing Effluent (DWE) as feed stock wastewater for anaerobic digestion (AD) systems was investigated in batch and continuous systems together with cattle and pig manures. While DWE considered unsuitable for biological treatment methods due to its unb...

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Veröffentlicht in:	Bioresource technology 2011-04, Vol.102 (8), p.4995-5003
Hauptverfasser:	Zarkadas, Ioannis S., Pilidis, George A.
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Sprache:	eng
Schlagworte:	Agronomy. Soil science and plant productions Anaerobic digestion Anaerobiosis Animals Applied sciences Biofuel production Biogas production Biological and medical sciences Biological treatment of sewage sludges and wastes Biotechnology Cattle Cattle and pig manure Effluents Energy Environment and pollution Exact sciences and technology Fundamental and applied biological sciences. Psychology General agronomy. Plant production Hydrogen-Ion Concentration Industrial applications and implications. Economical aspects Manure Olea Olea - chemistry Olives Pollution Reactors Reduction Swine Table olive process wastewater Tables (data) Temperature Use of agricultural and forest wastes. Biomass use, bioconversion Washing Waste water Wastewater management Wastewaters Water treatment and pollution
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creator	Zarkadas, Ioannis S. Pilidis, George A.
description	The prospective of table olive debittering & washing Effluent (DWE) as feed stock wastewater for anaerobic digestion (AD) systems was investigated in batch and continuous systems together with cattle and pig manures. While DWE considered unsuitable for biological treatment methods due to its unbalanced nature, the co-digestion of the wastewaters resulted in a 50% increase in the methane production/gram volatile solidsadded (CH4/gVSadded), accompanied by 30% phenol reduction and 80% total organic carbon removal (TOC). pH increase during the co-digestion period was not identified as an inhibitory factor and all reactors were able to withstand this operational condition change. Moreover, no volatile fatty acid (VFA) accumulation was observed, indicating that the reactors were not operating under stress-overloading state. Under thermophilic conditions a 7% increase on the TOC removal efficiency was achieved when compared to the mesophilic systems while, under mesophilic conditions phenolic compounds reduction was 10% higher compared to the thermophilic systems.
doi_str_mv	10.1016/j.biortech.2011.01.065
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Plant production ; Hydrogen-Ion Concentration ; Industrial applications and implications. Economical aspects ; Manure ; Olea ; Olea - chemistry ; Olives ; Pollution ; Reactors ; Reduction ; Swine ; Table olive process wastewater ; Tables (data) ; Temperature ; Use of agricultural and forest wastes. Biomass use, bioconversion ; Washing ; Waste water ; Wastewater management ; Wastewaters ; Water treatment and pollution</subject><ispartof>Bioresource technology, 2011-04, Vol.102 (8), p.4995-5003</ispartof><rights>2011 Elsevier Ltd</rights><rights>2015 INIST-CNRS</rights><rights>Copyright © 2011 Elsevier Ltd. 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While DWE considered unsuitable for biological treatment methods due to its unbalanced nature, the co-digestion of the wastewaters resulted in a 50% increase in the methane production/gram volatile solidsadded (CH4/gVSadded), accompanied by 30% phenol reduction and 80% total organic carbon removal (TOC). pH increase during the co-digestion period was not identified as an inhibitory factor and all reactors were able to withstand this operational condition change. Moreover, no volatile fatty acid (VFA) accumulation was observed, indicating that the reactors were not operating under stress-overloading state. Under thermophilic conditions a 7% increase on the TOC removal efficiency was achieved when compared to the mesophilic systems while, under mesophilic conditions phenolic compounds reduction was 10% higher compared to the thermophilic systems.</description><subject>Agronomy. Soil science and plant productions</subject><subject>Anaerobic digestion</subject><subject>Anaerobiosis</subject><subject>Animals</subject><subject>Applied sciences</subject><subject>Biofuel production</subject><subject>Biogas production</subject><subject>Biological and medical sciences</subject><subject>Biological treatment of sewage sludges and wastes</subject><subject>Biotechnology</subject><subject>Cattle</subject><subject>Cattle and pig manure</subject><subject>Effluents</subject><subject>Energy</subject><subject>Environment and pollution</subject><subject>Exact sciences and technology</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>General agronomy. Plant production</subject><subject>Hydrogen-Ion Concentration</subject><subject>Industrial applications and implications. Economical aspects</subject><subject>Manure</subject><subject>Olea</subject><subject>Olea - chemistry</subject><subject>Olives</subject><subject>Pollution</subject><subject>Reactors</subject><subject>Reduction</subject><subject>Swine</subject><subject>Table olive process wastewater</subject><subject>Tables (data)</subject><subject>Temperature</subject><subject>Use of agricultural and forest wastes. Biomass use, bioconversion</subject><subject>Washing</subject><subject>Waste water</subject><subject>Wastewater management</subject><subject>Wastewaters</subject><subject>Water treatment and pollution</subject><issn>0960-8524</issn><issn>1873-2976</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2011</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkktv1DAQxyMEokvhK1S-8Dg0ix9JnHCi2paHVIkLnK2JPdn1KokX21nUj8U3xNkH3Kg0kj32b8Z_z0yWXTG6ZJRV77fL1jofUW-WnDK2pMmq8km2YLUUOW9k9TRb0KaieV3y4iJ7EcKWUiqY5M-zC86EKGopF9nvmxHQu9ZqsnL5rV1jiNaNxHUkQtsjcb3dIzHY2hjR23FN3pBfEDbz7q7r-gnHeE00xJjgAcbJI4HRkJ1dn107khai3hzON3a9IXvXTwOSHlrnITr_kK7OMsxBA_rwYc6POh604LDDhKZ0L7NnHfQBX53Wy-zHp7vvqy_5_bfPX1c397kuKh5zVgoBtJCdEYDcNEWDZYMNpVh0skp_5ybVESW0IFgLRgLnVUNrbQppODJxmb095t1593NKktRgg8a-hxHdFFRdcVmLUtSPk6VkglI5k-_-SzIpJWM1lTKh1RHV3oXgsVM7bwfwD4pRNY-A2qrzCKh5BBRNVpUp8Or0xtQOaP6GnXuegNcnAIKGvvMwahv-caJJxSlp4j4eOUxV3lv0KmiLo0ZjfWqLMs4-puUPuwHUxQ</recordid><startdate>20110401</startdate><enddate>20110401</enddate><creator>Zarkadas, Ioannis S.</creator><creator>Pilidis, George A.</creator><general>Elsevier Ltd</general><general>Elsevier</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SU</scope><scope>7TB</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>KR7</scope><scope>7X8</scope><scope>7QO</scope><scope>7ST</scope><scope>P64</scope><scope>SOI</scope></search><sort><creationdate>20110401</creationdate><title>Anaerobic Co-Digestion of table olive debittering & washing Effluent, cattle manure and pig manure in batch and high volume laboratory anaerobic digesters: Effect of temperature</title><author>Zarkadas, Ioannis S. ; Pilidis, George A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c462t-1533a047fd3ae2d949e59e900e4f768772d016e7aba31bad7a226908cd47d2e13</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2011</creationdate><topic>Agronomy. Soil science and plant productions</topic><topic>Anaerobic digestion</topic><topic>Anaerobiosis</topic><topic>Animals</topic><topic>Applied sciences</topic><topic>Biofuel production</topic><topic>Biogas production</topic><topic>Biological and medical sciences</topic><topic>Biological treatment of sewage sludges and wastes</topic><topic>Biotechnology</topic><topic>Cattle</topic><topic>Cattle and pig manure</topic><topic>Effluents</topic><topic>Energy</topic><topic>Environment and pollution</topic><topic>Exact sciences and technology</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>General agronomy. Plant production</topic><topic>Hydrogen-Ion Concentration</topic><topic>Industrial applications and implications. 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While DWE considered unsuitable for biological treatment methods due to its unbalanced nature, the co-digestion of the wastewaters resulted in a 50% increase in the methane production/gram volatile solidsadded (CH4/gVSadded), accompanied by 30% phenol reduction and 80% total organic carbon removal (TOC). pH increase during the co-digestion period was not identified as an inhibitory factor and all reactors were able to withstand this operational condition change. Moreover, no volatile fatty acid (VFA) accumulation was observed, indicating that the reactors were not operating under stress-overloading state. 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subjects	Agronomy. Soil science and plant productions Anaerobic digestion Anaerobiosis Animals Applied sciences Biofuel production Biogas production Biological and medical sciences Biological treatment of sewage sludges and wastes Biotechnology Cattle Cattle and pig manure Effluents Energy Environment and pollution Exact sciences and technology Fundamental and applied biological sciences. Psychology General agronomy. Plant production Hydrogen-Ion Concentration Industrial applications and implications. Economical aspects Manure Olea Olea - chemistry Olives Pollution Reactors Reduction Swine Table olive process wastewater Tables (data) Temperature Use of agricultural and forest wastes. Biomass use, bioconversion Washing Waste water Wastewater management Wastewaters Water treatment and pollution
title	Anaerobic Co-Digestion of table olive debittering & washing Effluent, cattle manure and pig manure in batch and high volume laboratory anaerobic digesters: Effect of temperature
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