Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report

Addition of phenol recovery to the wastewater treatment scheme in the Baseline Design for the SRC-I Demonstration Plant was evaluated as a major post-Baseline effort. Phenol recovery affects many downstream processes, but this study was designed to assess primarily its effects on biooxidation and su...

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Bibliographic Details
Main Authors: Mitchell, J.W., Watt, J.C., Cowan, W.F., Schuyler, S.E.
Format: Report
Language:English
Published: Catalytic, Inc., Philadelphia, PA (USA) 1983
Subjects:
01 Coal
Lignite
And Peat
Elements
Phenols
Cyanides
Organic Compounds
Src Process
Oxidation
Sulfides
Nitrogen Compounds
Water 010405* > Coal
& Peat > Hydrogenation & Liquefaction
Water Treatment
Phosphorus Compounds
Chemical Reactions
Boron
Carbonic Acid Derivatives
Dephenolization
Carbon
Thiocyanates
Metals
Data
Hydrides
Biochemical Oxygen Demand
Volatile Matter
Information
Chlorides
Antithyroid Drugs
Fluorine Compounds
Chemical Composition
Liquefaction
Semimetals
Demonstration Plants
Hormone Antagonists
Magnesium
Iron
Mass Spectroscopy
Coal Liquefaction
Organic Sulfur Compounds
Chemical Oxygen Demand
Bioreactors
Gas Chromatography
Drugs
Sulfates
Activated Carbon
Nitrates
Sulfur Compounds
Halides
Aromatics
Thermochemical Processes
Waste Water
Halogen Compounds
Ammonia
Chalcogenides
Experimental Data
Wastes
Phosphates
Alkali Metals
Operation
Chlorine Compounds
Adsorbents
Alkaline Earth Metals
Oxygen Compounds
Matter
Numerical Data
Recovery
Fluorides
Sodium
Liquid Wastes
Hydroxy Compounds
Chromatography
Nonmetals
Hydrogen Compounds
Calcium
Phenol
Pesticides
Spectroscopy
Transition Elements
Nitrites
Nitrogen Hydrides
Separation Processes
Carbonic acid
Online Access:https://doi.org/10.2172/6868808
https://digital.library.unt.edu/ark:/67531/metadc1193206/
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spelling ftunivnotexas:info:ark/67531/metadc1193206 2023-05-15T15:53:03+02:00 Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report Mitchell, J.W. Watt, J.C. Cowan, W.F. Schuyler, S.E. 1983-09-01 Pages: 381 Text https://doi.org/10.2172/6868808 https://digital.library.unt.edu/ark:/67531/metadc1193206/ English eng Catalytic, Inc., Philadelphia, PA (USA) other: DE84013973 rep-no: DOE/OR/03054-49 grantno: AC05-78OR03054 doi:10.2172/6868808 osti: 6868808 https://digital.library.unt.edu/ark:/67531/metadc1193206/ ark: ark:/67531/metadc1193206 Other Information: Portions are illegible in microfiche products. Original copy available until stock is exhausted 01 Coal Lignite And Peat Elements Phenols Cyanides Organic Compounds Src Process Oxidation Sulfides Nitrogen Compounds Water 010405* -- Coal & Peat-- Hydrogenation & Liquefaction Water Treatment Phosphorus Compounds Chemical Reactions Boron Carbonic Acid Derivatives Dephenolization Carbon Thiocyanates Metals Data Hydrides Biochemical Oxygen Demand Volatile Matter Information Chlorides Antithyroid Drugs Fluorine Compounds Chemical Composition Liquefaction Semimetals Demonstration Plants Hormone Antagonists Magnesium Iron Mass Spectroscopy Coal Liquefaction Organic Sulfur Compounds Chemical Oxygen Demand Bioreactors Gas Chromatography Drugs Sulfates Activated Carbon Nitrates Sulfur Compounds Halides Aromatics Thermochemical Processes Waste Water Halogen Compounds Ammonia Chalcogenides Experimental Data Wastes Phosphates Alkali Metals Operation Chlorine Compounds Adsorbents Alkaline Earth Metals Oxygen Compounds Matter Numerical Data Recovery Fluorides Sodium Liquid Wastes Hydroxy Compounds Chromatography Nonmetals Hydrogen Compounds Calcium Phenol Pesticides Spectroscopy Transition Elements Nitrites Nitrogen Hydrides Separation Processes Report 1983 ftunivnotexas https://doi.org/10.2172/6868808 2018-09-22T22:08:40Z Addition of phenol recovery to the wastewater treatment scheme in the Baseline Design for the SRC-I Demonstration Plant was evaluated as a major post-Baseline effort. Phenol recovery affects many downstream processes, but this study was designed to assess primarily its effects on biooxidation and subsequent tertiary treatment. Two parallel treatment schemes were set up, one to treat dephenolated wastewaters and the other for processed nondephenolated wastewaters, a simulation of the Baseline Design. The study focused on comparisons of five areas: effluent quality; system stability; the need for continuous, high-dose powdered activated carbon (PAC) augmentation to the bioreactor; minimum bioreactor hydraulic residence time (HRT); and tertiary treatment requirements. The results show that phenol recovery improves the quality of the bioreactor effluent in terms of residual organics and color. With phenol recovery, PAC augmentation is not required; without phenol recovery, PAC is needed to produce a comparable effluent. Dephenolization also enhances the stability of biooxidation, and reduces the minimum HRT required. With tertiary treatment, both schemes can meet the effluent concentrations published in the SRC-I Final Envivornmental Impact Statement, as well as the anticipated effluent limits. However, phenol recovery does provide a wider safety margin and could eliminate the need for some of the tertiary treatment steps. Based solely on the technical merits observed in this study, phenol recovery is recommended. The final selection should, however, also consider economic tradeoffs and results of other studies such as toxicology testing of the effluents. 34 references, 30 figures and 26 tables. Report Carbonic acid University of North Texas: UNT Digital Library
institution Open Polar
collection University of North Texas: UNT Digital Library
op_collection_id ftunivnotexas
language English
topic 01 Coal
Lignite
And Peat
Elements
Phenols
Cyanides
Organic Compounds
Src Process
Oxidation
Sulfides
Nitrogen Compounds
Water 010405* -- Coal
& Peat-- Hydrogenation & Liquefaction
Water Treatment
Phosphorus Compounds
Chemical Reactions
Boron
Carbonic Acid Derivatives
Dephenolization
Carbon
Thiocyanates
Metals
Data
Hydrides
Biochemical Oxygen Demand
Volatile Matter
Information
Chlorides
Antithyroid Drugs
Fluorine Compounds
Chemical Composition
Liquefaction
Semimetals
Demonstration Plants
Hormone Antagonists
Magnesium
Iron
Mass Spectroscopy
Coal Liquefaction
Organic Sulfur Compounds
Chemical Oxygen Demand
Bioreactors
Gas Chromatography
Drugs
Sulfates
Activated Carbon
Nitrates
Sulfur Compounds
Halides
Aromatics
Thermochemical Processes
Waste Water
Halogen Compounds
Ammonia
Chalcogenides
Experimental Data
Wastes
Phosphates
Alkali Metals
Operation
Chlorine Compounds
Adsorbents
Alkaline Earth Metals
Oxygen Compounds
Matter
Numerical Data
Recovery
Fluorides
Sodium
Liquid Wastes
Hydroxy Compounds
Chromatography
Nonmetals
Hydrogen Compounds
Calcium
Phenol
Pesticides
Spectroscopy
Transition Elements
Nitrites
Nitrogen Hydrides
Separation Processes
spellingShingle 01 Coal
Lignite
And Peat
Elements
Phenols
Cyanides
Organic Compounds
Src Process
Oxidation
Sulfides
Nitrogen Compounds
Water 010405* -- Coal
& Peat-- Hydrogenation & Liquefaction
Water Treatment
Phosphorus Compounds
Chemical Reactions
Boron
Carbonic Acid Derivatives
Dephenolization
Carbon
Thiocyanates
Metals
Data
Hydrides
Biochemical Oxygen Demand
Volatile Matter
Information
Chlorides
Antithyroid Drugs
Fluorine Compounds
Chemical Composition
Liquefaction
Semimetals
Demonstration Plants
Hormone Antagonists
Magnesium
Iron
Mass Spectroscopy
Coal Liquefaction
Organic Sulfur Compounds
Chemical Oxygen Demand
Bioreactors
Gas Chromatography
Drugs
Sulfates
Activated Carbon
Nitrates
Sulfur Compounds
Halides
Aromatics
Thermochemical Processes
Waste Water
Halogen Compounds
Ammonia
Chalcogenides
Experimental Data
Wastes
Phosphates
Alkali Metals
Operation
Chlorine Compounds
Adsorbents
Alkaline Earth Metals
Oxygen Compounds
Matter
Numerical Data
Recovery
Fluorides
Sodium
Liquid Wastes
Hydroxy Compounds
Chromatography
Nonmetals
Hydrogen Compounds
Calcium
Phenol
Pesticides
Spectroscopy
Transition Elements
Nitrites
Nitrogen Hydrides
Separation Processes
Mitchell, J.W.
Watt, J.C.
Cowan, W.F.
Schuyler, S.E.
Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report
topic_facet 01 Coal
Lignite
And Peat
Elements
Phenols
Cyanides
Organic Compounds
Src Process
Oxidation
Sulfides
Nitrogen Compounds
Water 010405* -- Coal
& Peat-- Hydrogenation & Liquefaction
Water Treatment
Phosphorus Compounds
Chemical Reactions
Boron
Carbonic Acid Derivatives
Dephenolization
Carbon
Thiocyanates
Metals
Data
Hydrides
Biochemical Oxygen Demand
Volatile Matter
Information
Chlorides
Antithyroid Drugs
Fluorine Compounds
Chemical Composition
Liquefaction
Semimetals
Demonstration Plants
Hormone Antagonists
Magnesium
Iron
Mass Spectroscopy
Coal Liquefaction
Organic Sulfur Compounds
Chemical Oxygen Demand
Bioreactors
Gas Chromatography
Drugs
Sulfates
Activated Carbon
Nitrates
Sulfur Compounds
Halides
Aromatics
Thermochemical Processes
Waste Water
Halogen Compounds
Ammonia
Chalcogenides
Experimental Data
Wastes
Phosphates
Alkali Metals
Operation
Chlorine Compounds
Adsorbents
Alkaline Earth Metals
Oxygen Compounds
Matter
Numerical Data
Recovery
Fluorides
Sodium
Liquid Wastes
Hydroxy Compounds
Chromatography
Nonmetals
Hydrogen Compounds
Calcium
Phenol
Pesticides
Spectroscopy
Transition Elements
Nitrites
Nitrogen Hydrides
Separation Processes
description Addition of phenol recovery to the wastewater treatment scheme in the Baseline Design for the SRC-I Demonstration Plant was evaluated as a major post-Baseline effort. Phenol recovery affects many downstream processes, but this study was designed to assess primarily its effects on biooxidation and subsequent tertiary treatment. Two parallel treatment schemes were set up, one to treat dephenolated wastewaters and the other for processed nondephenolated wastewaters, a simulation of the Baseline Design. The study focused on comparisons of five areas: effluent quality; system stability; the need for continuous, high-dose powdered activated carbon (PAC) augmentation to the bioreactor; minimum bioreactor hydraulic residence time (HRT); and tertiary treatment requirements. The results show that phenol recovery improves the quality of the bioreactor effluent in terms of residual organics and color. With phenol recovery, PAC augmentation is not required; without phenol recovery, PAC is needed to produce a comparable effluent. Dephenolization also enhances the stability of biooxidation, and reduces the minimum HRT required. With tertiary treatment, both schemes can meet the effluent concentrations published in the SRC-I Final Envivornmental Impact Statement, as well as the anticipated effluent limits. However, phenol recovery does provide a wider safety margin and could eliminate the need for some of the tertiary treatment steps. Based solely on the technical merits observed in this study, phenol recovery is recommended. The final selection should, however, also consider economic tradeoffs and results of other studies such as toxicology testing of the effluents. 34 references, 30 figures and 26 tables.
format Report
author Mitchell, J.W.
Watt, J.C.
Cowan, W.F.
Schuyler, S.E.
author_facet Mitchell, J.W.
Watt, J.C.
Cowan, W.F.
Schuyler, S.E.
author_sort Mitchell, J.W.
title Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report
title_short Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report
title_full Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report
title_fullStr Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report
title_full_unstemmed Evaluation of effects of phenol recovery on biooxidation and tertiary treatment of SRC-I wastewater. Final technical report
title_sort evaluation of effects of phenol recovery on biooxidation and tertiary treatment of src-i wastewater. final technical report
publisher Catalytic, Inc., Philadelphia, PA (USA)
publishDate 1983
url https://doi.org/10.2172/6868808
https://digital.library.unt.edu/ark:/67531/metadc1193206/
genre Carbonic acid
genre_facet Carbonic acid
op_source Other Information: Portions are illegible in microfiche products. Original copy available until stock is exhausted
op_relation other: DE84013973
rep-no: DOE/OR/03054-49
grantno: AC05-78OR03054
doi:10.2172/6868808
osti: 6868808
https://digital.library.unt.edu/ark:/67531/metadc1193206/
ark: ark:/67531/metadc1193206
op_doi https://doi.org/10.2172/6868808
_version_ 1766388119243849728

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