Environmental impact of industrial sludge stabilization/solidification products: Chemical or ecotoxicological hazard evaluation?

► Nowadays, the classification of industrial solid wastes is not based on risk analysis, but only in chemical leachate constitution. ► Generated ecotoxicological data showed that the results of chemical analysis sometimes underestimate or overestimate the hazardous potential of S/S derived products....

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Published in	Journal of hazardous materials Vol. 192; no. 3; pp. 1108 - 1113
Main Authors	Silva, Marcos A.R., Testolin, Renan C., Godinho-Castro, Alcione P., Corrêa, Albertina X.R., Radetski, Claudemir M.
Format	Journal Article
Language	English
Published	Kidlington Elsevier B.V 15.09.2011 Elsevier
Subjects	Algae Aliivibrio fischeri - metabolism Animals Applied sciences Bacteria Brazil chemical analysis Chemical engineering Chlorophyta - metabolism Classification Crystallization, leaching, miscellaneous separations Daphnia - metabolism Ecotoxicity tests ecotoxicology environmental factors Environmental impact Environmental Monitoring - methods environmental protection Environmental Restoration and Remediation Exact sciences and technology General treatment and storage processes Global environmental pollution hazard characterization Hazardous Hazardous Substances Industrial hazardous waste Industrial Waste leaching Metals Metals - chemistry Pollution Refuse Disposal - methods Risk Safety Sewage Sludge Solid wastes solidification solubility Stabilization Stabilization/solidification textile industry Textiles Toxicity Wastes Water Pollutants, Chemical - analysis Water Purification - methods Brazil Industrial hazardous waste Environmental impact Metals Stabilization/solidification Ecotoxicity tests Chemical analysis Stabilization Toxicity Waste treatment Immobilization Environmental factor Hazardous waste Transport process Pollution Risk assessment Bacteria Lixiviation Textile industry Hazard Algae Chemical wastes Solubility Risk analysis Solidification Environment impact Solid waste Regulation Environmental protection
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Abstract	► Nowadays, the classification of industrial solid wastes is not based on risk analysis, but only in chemical leachate constitution. ► Generated ecotoxicological data showed that the results of chemical analysis sometimes underestimate or overestimate the hazardous potential of S/S derived products. ► This is a evidence that solid (waste) classification must be made preferentially by ecotoxicity tests and policy makers must pay attention to this type of evidence. Nowadays, the classification of industrial solid wastes is not based on risk analysis, thus the aim of this study was to compare the toxicity classifications based on the chemical and ecotoxicological characterization of four industrial sludges submitted to a two-step stabilization/solidification (S/S) processes. To classify S/S products as hazardous or non-hazardous, values cited in Brazilian chemical waste regulations were adopted and compared to the results obtained with a battery of biotests (bacteria, alga and daphnids) which were carried out with soluble and leaching fractions. In some cases the hazardous potential of industrial sludge was underestimated, since the S/S products obtained from the metal-mechanics and automotive sludges were chemically classified as non-hazardous (but non-inert) when the ecotoxicity tests showed toxicity values for leaching and soluble fractions. In other cases, the environmental impact was overestimated, since the S/S products of the textile sludges were chemically classified as non-inert (but non-hazardous) while ecotoxicity tests did not reveal any effects on bacteria, daphnids and algae. From the results of the chemical and ecotoxicological analyses we concluded that: (i) current regulations related to solid waste classification based on leachability and solubility tests do not ensure reliable results with respect to environmental protection; (ii) the two-step process was very effective in terms of metal immobilization, even at higher metal-concentrations. Considering that S/S products will be subject to environmental conditions, it is of great interest to test the ecotoxicity potential of the contaminants release from these products with a view to avoiding environmental impact given the unreliability of ecotoxicological estimations originating from chemical analysis.
AbstractList	Nowadays, the classification of industrial solid wastes is not based on risk analysis, thus the aim of this study was to compare the toxicity classifications based on the chemical and ecotoxicological characterization of four industrial sludges submitted to a two-step stabilization/solidification (S/S) processes. To classify S/S products as hazardous or non-hazardous, values cited in Brazilian chemical waste regulations were adopted and compared to the results obtained with a battery of biotests (bacteria, alga and daphnids) which were carried out with soluble and leaching fractions. In some cases the hazardous potential of industrial sludge was underestimated, since the S/S products obtained from the metal-mechanics and automotive sludges were chemically classified as non-hazardous (but non-inert) when the ecotoxicity tests showed toxicity values for leaching and soluble fractions. In other cases, the environmental impact was overestimated, since the S/S products of the textile sludges were chemically classified as non-inert (but non-hazardous) while ecotoxicity tests did not reveal any effects on bacteria, daphnids and algae. From the results of the chemical and ecotoxicological analyses we concluded that: (i) current regulations related to solid waste classification based on leachability and solubility tests do not ensure reliable results with respect to environmental protection; (ii) the two-step process was very effective in terms of metal immobilization, even at higher metal-concentrations. Considering that S/S products will be subject to environmental conditions, it is of great interest to test the ecotoxicity potential of the contaminants release from these products with a view to avoiding environmental impact given the unreliability of ecotoxicological estimations originating from chemical analysis. ► Nowadays, the classification of industrial solid wastes is not based on risk analysis, but only in chemical leachate constitution. ► Generated ecotoxicological data showed that the results of chemical analysis sometimes underestimate or overestimate the hazardous potential of S/S derived products. ► This is a evidence that solid (waste) classification must be made preferentially by ecotoxicity tests and policy makers must pay attention to this type of evidence. Nowadays, the classification of industrial solid wastes is not based on risk analysis, thus the aim of this study was to compare the toxicity classifications based on the chemical and ecotoxicological characterization of four industrial sludges submitted to a two-step stabilization/solidification (S/S) processes. To classify S/S products as hazardous or non-hazardous, values cited in Brazilian chemical waste regulations were adopted and compared to the results obtained with a battery of biotests (bacteria, alga and daphnids) which were carried out with soluble and leaching fractions. In some cases the hazardous potential of industrial sludge was underestimated, since the S/S products obtained from the metal-mechanics and automotive sludges were chemically classified as non-hazardous (but non-inert) when the ecotoxicity tests showed toxicity values for leaching and soluble fractions. In other cases, the environmental impact was overestimated, since the S/S products of the textile sludges were chemically classified as non-inert (but non-hazardous) while ecotoxicity tests did not reveal any effects on bacteria, daphnids and algae. From the results of the chemical and ecotoxicological analyses we concluded that: (i) current regulations related to solid waste classification based on leachability and solubility tests do not ensure reliable results with respect to environmental protection; (ii) the two-step process was very effective in terms of metal immobilization, even at higher metal-concentrations. Considering that S/S products will be subject to environmental conditions, it is of great interest to test the ecotoxicity potential of the contaminants release from these products with a view to avoiding environmental impact given the unreliability of ecotoxicological estimations originating from chemical analysis. Nowadays, the classification of industrial solid wastes is not based on risk analysis, thus the aim of this study was to compare the toxicity classifications based on the chemical and ecotoxicological characterization of four industrial sludges submitted to a two-step stabilization/solidification (S/S) processes. To classify S/S products as hazardous or non-hazardous, values cited in Brazilian chemical waste regulations were adopted and compared to the results obtained with a battery of biotests (bacteria, alga and daphnids) which were carried out with soluble and leaching fractions. In some cases the hazardous potential of industrial sludge was underestimated, since the S/S products obtained from the metal-mechanics and automotive sludges were chemically classified as non-hazardous (but non-inert) when the ecotoxicity tests showed toxicity values for leaching and soluble fractions. In other cases, the environmental impact was overestimated, since the S/S products of the textile sludges were chemically classified as non-inert (but non-hazardous) while ecotoxicity tests did not reveal any effects on bacteria, daphnids and algae. From the results of the chemical and ecotoxicological analyses we concluded that: (i) current regulations related to solid waste classification based on leachability and solubility tests do not ensure reliable results with respect to environmental protection; (ii) the two-step process was very effective in terms of metal immobilization, even at higher metal-concentrations. Considering that S/S products will be subject to environmental conditions, it is of great interest to test the ecotoxicity potential of the contaminants release from these products with a view to avoiding environmental impact given the unreliability of ecotoxicological estimations originating from chemical analysis.Nowadays, the classification of industrial solid wastes is not based on risk analysis, thus the aim of this study was to compare the toxicity classifications based on the chemical and ecotoxicological characterization of four industrial sludges submitted to a two-step stabilization/solidification (S/S) processes. To classify S/S products as hazardous or non-hazardous, values cited in Brazilian chemical waste regulations were adopted and compared to the results obtained with a battery of biotests (bacteria, alga and daphnids) which were carried out with soluble and leaching fractions. In some cases the hazardous potential of industrial sludge was underestimated, since the S/S products obtained from the metal-mechanics and automotive sludges were chemically classified as non-hazardous (but non-inert) when the ecotoxicity tests showed toxicity values for leaching and soluble fractions. In other cases, the environmental impact was overestimated, since the S/S products of the textile sludges were chemically classified as non-inert (but non-hazardous) while ecotoxicity tests did not reveal any effects on bacteria, daphnids and algae. From the results of the chemical and ecotoxicological analyses we concluded that: (i) current regulations related to solid waste classification based on leachability and solubility tests do not ensure reliable results with respect to environmental protection; (ii) the two-step process was very effective in terms of metal immobilization, even at higher metal-concentrations. Considering that S/S products will be subject to environmental conditions, it is of great interest to test the ecotoxicity potential of the contaminants release from these products with a view to avoiding environmental impact given the unreliability of ecotoxicological estimations originating from chemical analysis.
Author	Corrêa, Albertina X.R. Testolin, Renan C. Godinho-Castro, Alcione P. Silva, Marcos A.R. Radetski, Claudemir M.
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Cites_doi	10.1016/j.conbuildmat.2005.08.021 10.1016/S0956-053X(02)00009-0 10.1080/10643389891254250 10.1016/j.jcis.2004.04.005 10.1002/etc.5620050508 10.1016/j.enggeo.2005.09.028 10.1080/10643389891254241 10.1016/j.jhazmat.2006.01.065 10.1016/0304-3894(87)87002-4 10.1016/j.scitotenv.2005.12.016 10.1139/a06-004 10.1016/j.jhazmat.2008.03.090 10.2307/2528930 10.1080/10643380490443281 10.1016/j.trac.2006.11.012
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Keywords	Industrial hazardous waste Environmental impact Metals Stabilization/solidification Ecotoxicity tests Chemical analysis Stabilization Toxicity Waste treatment Immobilization Environmental factor Hazardous waste Transport process Pollution Risk assessment Bacteria Lixiviation Textile industry Hazard Algae Chemical wastes Solubility Risk analysis Solidification Environment impact Solid waste Regulation Environmental protection
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Snippet	► Nowadays, the classification of industrial solid wastes is not based on risk analysis, but only in chemical leachate constitution. ► Generated... Nowadays, the classification of industrial solid wastes is not based on risk analysis, thus the aim of this study was to compare the toxicity classifications...
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SubjectTerms	Algae Aliivibrio fischeri - metabolism Animals Applied sciences Bacteria Brazil chemical analysis Chemical engineering Chlorophyta - metabolism Classification Crystallization, leaching, miscellaneous separations Daphnia - metabolism Ecotoxicity tests ecotoxicology environmental factors Environmental impact Environmental Monitoring - methods environmental protection Environmental Restoration and Remediation Exact sciences and technology General treatment and storage processes Global environmental pollution hazard characterization Hazardous Hazardous Substances Industrial hazardous waste Industrial Waste leaching Metals Metals - chemistry Pollution Refuse Disposal - methods Risk Safety Sewage Sludge Solid wastes solidification solubility Stabilization Stabilization/solidification textile industry Textiles Toxicity Wastes Water Pollutants, Chemical - analysis Water Purification - methods
Title	Environmental impact of industrial sludge stabilization/solidification products: Chemical or ecotoxicological hazard evaluation?
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