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PARK, JONG MOON (박종문)
Div. of Advanced Nuclear Engineering(첨단원자력공학부)
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REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 fixation:2||ammonia removal:2||CELLSURFACE HYDROPHOBICITY:2||RIBOSOMALRNA:2||induction:2||metabolic engineering:2||NAD(P)Hdependent hydrogen production:2||Thiocyanate:2||TREATMENTPLANT:2||MINERALIZATION:2||NITROGEN:2||TREATMENT FACILITY:2||wastewater treatment plant:2||drum bioreactor:2||BIOLOGICAL TREATMENT:2||PHOSPHATEREMOVAL:2||PHOTOBIOREACTORS:2||SIMULATION:2||hybrid modeling:2||immobilized bioreactor:2||ELICITOR:2||life cycle assessment:2||salicylic acid:2||PCA:2||transformation:2||FOOD WASTE:2||BIOSURFACTANT:2||MULTIVARIATE:2||SALICYLATE:2||biohydrogen:2||pentose phosphate pathway:2||METABOLICFLUX ANALYSIS:2||MARINEALGAE:2||system stability:2||ACCUMULATION:2||ANTHRACENECONTAMINATED SOIL:2||bioaugmentation:2||INSITU IDENTIFICATION:2||photosynthesis:2||NUTRIENT REMOVAL:2||ORP:2||Optimization:2||MIXED CULTURE:2||carbon material balance:2||dihydrobenzophenanthridine oxidase:2||yeast extract:2||MOLECULARCLONING:2||CULTURES:2||Cadmium:2||HEAVYMETAL:2||LYSOZYME:2||phosphate:2||Bacterial consortium:2||CR(III):2||surfactant:2||immobilization:2||glycogen:2||CONTAMINATED SOILS:2||SALICYLICACID:2||GENE:2||H2S removal:2||SIMULTANEOUS BIOSORPTION:2||intermediates:1||PERMEABILITY:1||PATHWAYS:1||chemical pretreatment:1||Eckonia:1||process monitoring:1||RealTime Quantitative PCR (qPCR):1||Plasmid Stability:1||POLYMERASECHAINREACTION:1||BENZOPHENANTHRIDINE ALKALOID ACCUMULATION:1||Selective adsorption:1||Surfactant enhanced soil washing:1||Mathematical model:1||heavy metals:1||ORGANIC POLLUTANTS:1||BIOLOGICALSYSTEMS:1||Hydrogen production:1||BUTYRICACID FERMENTATION:1||DETOXIFICATION:1||PROGRESS:1||BINDING:1||multiscale:1||COPY NUMBER:1||Twostage process:1||YEAST SUPPORTS:1||Decursinol angelate:1||SUBSURFACE REMEDIATION:1||Available carbon fraction:1||Internal recycling ratio:1||MICROBIALPOPULATIONS:1||carbon addition:1||CAROTENOGENESIS:1||STRESS:1||IONEXCHANGE:1||HEXAVALENT CHROMIUM REMOVAL:1||ALGORITHM:1||SEARCH:1||photosynthesis measurement system:1||PARAMETERS:1||copper removal:1||tetracyanonickelate:1||CYANO COMPLEX TETRACYANONICKELATE(II):1||fungus:1||onoff control:1||glycogenaccumulating organisms:1||polyphosphateaccumulating organisms:1||GLYCOGEN:1||KINETICANALYSIS:1||sorbedphase biodegradation:1||soil slurry:1||nonsteadystate model:1||volumetric loading rate:1||SOLUTES:1||6BETAHYDROXYLASE:1||sequential degradation:1||BIOHYDROGEN:1||food waste:1||CHROMIUM:1||3 &apos:1||Omethyltransferase:1||hydroxylase:1||CELLCULTURE:1||LCA:1||cyanidesdegrading microorganism:1||mixed culture:1||TRANSPORT:1||DEFENSE RESPONSES:1||NITRIFYING BACTERIA:1||TEMPERATURE:1||Environmental indicator:1||Multiscale:1||wavelets:1||NEURALNETWORKS:1||SINGLECELL:1||Anaerobic filter:1||HRT:1||FUNGAL BIOMASS:1||ALGORITHMS:1||column:1||BACKGROUND ELECTROLYTES:1||TAXOL PRODUCTION:1||nickel:1||FAULTDIAGNOSIS:1||Impregnation:1||LEAD:1||cell growth:1||cell population distribution:1||discrete event simulation:1||Wastewater treatment:1||COLOR REMOVAL:1||PRINCIPAL COMPONENTS:1||dynamic system:1||PLS APPROACH:1||MASSSPECTROMETRY:1||intermediate:1||ELECTRONTRANSPORT:1||PROSPECTS:1||jarosite:1||batch process:1||nonparametric model:1||slurry reactor:1||Anaerobic digestion:1||ETHANOLPRODUCTION:1||Decursin:1||ELICITORS:1||Nonionicanionic surfactant mixture:1||HOC:1||Effectiveness factor:1||EBPR sequencing batch reactor:1||GEN. NOV.:1||SLURRY SYSTEMS:1||PHYLOGENETIC ANALYSIS:1||DESORPTION:1||cokeplant wastewater:1||denitrifying PAOs:1||pH:1||PAH COMPOUNDS:1||poly 3hydroxy alkanoic acids:1||PURIFICATION:1||URANIUM:1||DATURASTRAMONIUM:1||Hexavalent chromium:1||Objective function:1||Hydrogen production rate:1||ferricyanide:1||clostridium tyrobutyricum:1||":1||Rhodocyclus:1||Candidatus Accumulibacter phosphatis":1||FUNCTIONAL EXPRESSION:1||PHENYLALANINE AMMONIALYASE:1||synthesis:1||cyanidesdegrading bioprocess:1||pine needle:1||space occupancy:1||SUSTAINABLE DEVELOPMENT:1||PRINCIPALCOMPONENT ANALYSIS:1||MONTECARLO SIMULATION:1||GENEEXPRESSION:1||BENZOATE:1||ACETATE:1||Life cycle assessment (LCA):1||TEXTILE EFFLUENT:1||SELECTION:1||PROJECTION:1||TAXUSCHINENSIS:1||calcium carbonate:1||ANAEROBIC SEWAGESLUDGE:1||PRECIPITATION:1||EBPR:1||POLYPHOSPHATE KINASE:1||INDUCTION:1||CYANIDES:1||toxicity:1||density:1||SECONDARY METABOLITES:1||Environmental management:1||COSTS:1||Sodium dodecyl sulfate:1||PORE:1||MSPC:1||ADSORBENTS:1||ARSENATE:1||Phenol:1||ACID DYES:1||IONICSTRENGTH:1||FUNCTIONALGROUPS:1||DRAINAGE:1||mechanistic model:1||CELLULOLYTICUM:1||BUTYRICUM:1||PROTEIN EXPRESSION:1||DEFENSE:1||MIXED SURFACTANT:1||ENHANCED HYDROGENPRODUCTION:1||CRYSTALSTRUCTURE:1||Nitrifying bacteria:1||Total nitrogen:1||REALTIME PCR:1||QUANTIFICATION:1||biological nitrogen removal system:1||coke plant wastewater:1||THIOCYANATE DEGRADATION:1||remote monitoring:1||scheduling:1||jobshop:1||metaheuristics:1||aromatic compounds:1||soil contamination:1||SEWAGE:1||CATABOLIC GENES:1||ALGAE:1||ALGAL BIOSORBENT:1||CARBONYL SULFIDE:1||feedforward control:1||MASSTRANSFER:1||water content:1||chitosan bead:1||steelmaking plant:1||CHITOSAN BEADS:1||MICROBIAL COMMUNITY STRUCTURE:1||MICELLAR PHASE:1||ECOEFFICIENCY:1||EPS:1||TORTUOSITY:1||ARABIDOPSIS:1||Environmental labeling:1||Life cycle impact assessment:1||PRODUCT:1||Triton X100:1||Toxic pollutants:1||Agricultural biowaste:1||DEGRADING BACTERIA:1||NOWAIT:1||anoxic phosphorus uptake:1||realtime control:1||microbial competition:1||SPIRULINAPLATENSIS:1||ENERGY:1||REACTORS:1||sequentially operated batch reactor:1||irrigation water:1||WASTE STREAMS:1||light intensity:1||TOLERANCE:1||commensal interaction:1||CARBONDIOXIDE:1||CATHARANTHUSROSEUS:1||Soil slurry system:1||Life cycle costing:1||waste slag:1||METABOLITES:1||CATIONIC SURFACTANT:1||ECKLONIA BIOMASS:1||adsorption:1||water reuse:1||CLOSTRIDIUMBUTYRICUM:1||washing out:1||MULTIVARIATE PROCESSES:1||PTA wastewater:1||Organic loading:1||PHTHALATE ISOMERS:1||INDUSTRIAL:1||REDOX INTERACTIONS:1||partial least squares (PLS):1||nonlinear system:1||BINARY METAL MIXTURES:1||membrane transport:1||MUTANTS:1||2HYDROXYBENZOATE:1||fungal biomass:1||ARRHIZUS:1||industrial wastewater treatment plant:1||partial least squares:1||Hydrogen:1||Molasses:1||SP NOV.:1||Angelica gigas Nakai:1||FEFE HYDROGENASES:1||gel beads:1||BIOSORBENT:1||HETEROTROPHIC BACTERIUM:1||threshold accepting:1||STRUCTURED MODEL:1||FUSARIUMSOLANI:1||external carbon addition:1||slurry bioreactor:1||concentratednitrate:1||ACID:1||polyphosphate accumulating organism:1||SOFTWARE SENSORS:1||BACILLUSCIRCULANS:1||reclamation:1||effluent:1||16S RIBOSOMALRNA:1||PHASE:1||root culture:1||Surfactant recovery:1||Biosorption:1||Chromium:1||TRIVALENT CHROMIUM:1||GRAMPOSITIVE COCCI:1||PHENANTHRENE DEGRADATION:1||HYBRIDIZATION PROBES:1||QUINONES:1||POLICY:1||biosorbent regeneration:1||PSEUDOMONASFLUORESCENS:1||STRAIN:1||ENZYME:1||THIOBACILLUSTHIOPARUS:1||PHOSPHORUS REMOVAL:1||COMPETITION:1||EMITTINGDIODES:1||biofilter:1||metabolic pathway:1||galactooligosaccharide (GalOS):1||continuous production:1||lactose hydrolysis:1||airlift submerged biofilm reactor:1||chitin:1||cutting method:1||root branching:1||PSEUDOMONAS:1||sedimentation:1||GROUNDWATER:1||GASPRODUCTION:1||CRITICAL MICELLE CONCENTRATION:1||SYNTHASE:1||hydroxy(S)Nmethylcoclaurine4 &apos:1||SANGUINARINE:1||PHENANTHRENE:1||direct contact:1||biological hydrogen production:1||FEASIBILITY:1||GAS:1||temperature:1||GROWTHRATE:1||MULTIBLOCK PLS:1||Ammonia:1||TOLUENE:1||Process dynamics:1||ferrous iron oxidation:1||differential reactor:1||PHOTOPRODUCTION:1||submerged membrane bioreactor:1||RUSTICYANIN:1||Elicitor preparation:1||Plant root culture:1||Yeast extract:1||YEAST EXTRACT:1||ENHANCED DESORPTION:1||MICROBIAL BIOSORPTION:1||FUNGAL BIOSORPTION:1||SHUTTLE VECTOR:1||AMMONIAOXIDIZING BACTERIA:1||vibration:1||scaleup:1||Cr(VI)biosorbent:1||PERFORMANCE:1||HYDROCARBONS:1||light:1||GROWTHKINETICS:1||Sargassum biosorbent:1||Cu biosorption:1||Cryptococcus humicolus:1||dynamic model:1||chemical oxygen demand/nitrate ratio:1||sequencing batch reactors:1||ACCUMULATING BACTERIA:1||acetate:1||activated sludge:1||POPULATION:1||slurryphase reaction:1||Bullera singularis:1||COPPER:1||gas recycling photobioreactor:1||carbon dioxide fixation:1||Response surface methodology (RSM):1||chemical processes:1||FERRICYANIDE:1||FUELS:1||diversity:1||phaC:1||(S)methylcoclaurine3 &apos:1||ammonia:1||mechanism:1||water network synthesis:1||EXTRACELLULAR POLYMERIC SUBSTANCES:1||DENSITY:1||ORGANIC FRACTION:1||NITRIFICATION INHIBITION:1||multiway principal component analysis:1||online monitoring:1||Surfactant:1||DECOMPOSITION:1||CADMIUM ION ADSORPTION:1||Environmental impact:1||Mathematical optimization model:1||carbon flow distribution:1||CONTINUOUSCULTURE:1||CHITOSAN:1||SUBSTITUTED PHENOLS:1||benzophenanthridine alkaloids:1||SECONDARY METABOLITE PRODUCTION:1||PACLITAXEL PRODUCTION:1||ALKALOID BIOSYNTHESIS:1||SEQUENCE DATABASES:1||multimetal system:1||RARRHIZUS:1||ANTHRACENE:1||DIFFUSION:1||DEPRIVATION:1||RESPONSES:1||DIGESTION:1||membrane bioreactor:1||Methane:1||CLOSTRIDIUMTYROBUTYRICUM JM1:1||CALIFORNICA SUSPENSIONCULTURES:1||HEAVYMETAL IONS:1||Homologous overexpression:1||DELETED MUTANT:1||SAWDUST:1||sound wave:1||CAROTENOIDS:1||mist culture system:1||Hydraulic retention time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 fixation:2||ammonia removal:2||CELLSURFACE HYDROPHOBICITY:2||RIBOSOMALRNA:2||induction:2||metabolic engineering:2||NAD(P)Hdependent hydrogen production:2||Thiocyanate:2||TREATMENTPLANT:2||MINERALIZATION:2||NITROGEN:2||TREATMENT FACILITY:2||wastewater treatment plant:2||drum bioreactor:2||BIOLOGICAL TREATMENT:2||PHOSPHATEREMOVAL:2||PHOTOBIOREACTORS:2||SIMULATION:2||hybrid modeling:2||immobilized bioreactor:2||ELICITOR:2||life cycle assessment:2||salicylic acid:2||PCA:2||transformation:2||FOOD WASTE:2||BIOSURFACTANT:2||MULTIVARIATE:2||SALICYLATE:2||biohydrogen:2||pentose phosphate pathway:2||METABOLICFLUX ANALYSIS:2||MARINEALGAE:2||system stability:2||ACCUMULATION:2||ANTHRACENECONTAMINATED SOIL:2||bioaugmentation:2||INSITU IDENTIFICATION:2||photosynthesis:2||NUTRIENT REMOVAL:2||ORP:2||Optimization:2||MIXED CULTURE:2||carbon material balance:2||dihydrobenzophenanthridine oxidase:2||yeast extract:2||MOLECULARCLONING:2||CULTURES:2||Cadmium:2||HEAVYMETAL:2||LYSOZYME:2||phosphate:2||Bacterial 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus 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analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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time:1||Nitrification and denitrification:1||NITROGEN REMOVAL:1||CYANOBACTERIUM SPIRULINAPLATENSIS:1||CONTINUOUS CULTURE:1||STORAGE:1||column biosorption:1||multicycle biosorption:1||CADMIUM:1||METABOLIC MODEL:1||PRODUCTIVITY:1||CONVERSION:1||electron microscope:1||two soil phases:1||fixedbed column:1||METAL RECOVERY:1||twostage reactor system:1||Organic reductant:1||Pine bark:1||INSITU REMEDIATION:1||Water reused:1||Water network synthesis:1||BoxBehnken design:1||coagulation:1||ARDRA:1||pH effect:1||ACCUMULATING ORGANISMS:1||environmental and economic feasibility:1||SEDIMENTS:1||AMMONIA:1||hydrogen production rate:1||Enterobacter aerogenes:1||response surface methodology (RSM):1||ecoefficiency:1||mathematical model:1||LACTICACID BACTERIA:1||US:1||Process monitoring:1||ANAEROBIC FILTER PROCESS:1||Anionic surfactant:1||COMPONENT:1||POLLUTANTS:1||stochastic modeling:1||Andrews kinetics:1||INHIBITION:1||NATURAL ADSORBENTS:1||BIOSORPTION COLUMN:1||fungi:1||polyurethane foam:1||Hydrogen Production:1||Copper ion:1||in planta elicitation:1||adsorbent:1||dyes:1||precious metals:1||[FeFe]hydrogenase:1||ESCHERICHIACOLI STRAINS:1||WILDTYPE:1||sodium alginate:1||REMOVAL:14||POLYCYCLIC AROMATICHYDROCARBONS:13||hexavalent chromium:13||BIODEGRADATION:12||HEXAVALENT CHROMIUM:12||BIOSORPTION:11||DESIGN:10||WASTEWATER:10||reduction:10||biosorption:10||SORPTION:10||DEAD FUNGAL BIOMASS:9||ADSORPTION:9||GROWTH:9||TREATED BIOMASS:9||OPTIMIZATION:9||REDUCTION:9||SYSTEMS:9||KINETICS:8||BIOHYDROGEN PRODUCTION:8||WATER:8||AQUEOUSSOLUTIONS:8||ACTIVATEDSLUDGE:8||biodegradation:8||CHROMATE:7||FERMENTATION:7||PAH:7||BROWN SEAWEED:7||BIOREMEDIATION:6||sequencing batch reactor:6||REMEDIATION:6||wastewater:6||POLYPHOSPHATE:6||Ecklonia:6||MECHANISM:6||METABOLISM:6||SYSTEM:6||IDENTIFICATION:6||neural network:6||SOLUBILIZATION:6||CULTURE:5||ACTIVATED CARBON:5||Clostridium tyrobutyricum:5||CR(VI):5||phenanthrene:5||enhanced biological phosphorus removal:5||kinetics:5||nitrification:5||MODEL:5||GLUCOSE:5||HEAVYMETAL BIOSORPTION:5||ACTIVATED CARBONS:5||CELLS:5||BIOSYNTHESIS:5||PROCESS PLANTS:5||TRIVALENT:5||bioremediation:5||BACTERIA:5||NITRIFICATION:4||GLOBAL OPTIMIZATION:4||CYANIDE:4||PRINCIPAL COMPONENT ANALYSIS:4||CONTAMINATED SOIL:4||CR(VI) REMOVAL:4||cyanide:4||glucose:4||PH:4||detoxification:4||BIOAVAILABILITY:4||SEQUENCING BATCH REACTOR:4||cokes wastewater:4||THIOCYANATE:4||MINIMIZATION:4||PLS:4||activated carbon:4||ULTRAFILTRATION:4||food wastes:4||LENTINUSSAJORCAJU:4||ECKLONIA SP:4||REUSE:4||Activated carbon:4||BIOFILM REACTOR:4||HEAVYMETALS:4||Eschscholtzia californica:4||NONIONIC SURFACTANTS:4||PHENOL:4||DEGRADATION:4||NONIONIC SURFACTANT:3||SULFATE:3||BEHAVIOR:3||precipitation:3||IONS:3||ENTEROBACTERAEROGENES:3||METHYL JASMONATE:3||AEROMONASCAVIAE:3||Predenitrification process:3||aerobic degradation:3||RECOVERY:3||OXIDATION:3||BIOFILM:3||SOILSLURRY SYSTEMS:3||NEURAL NETWORKS:3||principal component analysis:3||PREDICTION:3||NET PRESENT VALUE:3||signal transduction:3||REGRESSION:3||Chlorella vulgaris:3||denitrification:3||MICROALGAE:3||WASTE:3||AEROBIC BIODEGRADATION:3||NUTRIENT DYNAMICS:3||WASTEWATER TREATMENT:3||NAPHTHALENE:3||SOILWATER SYSTEMS:3||BIOMASS:3||PHOSPHATE REMOVAL:3||ORGANICCOMPOUNDS:3||STARCH:3||ACINETOBACTER:3||hydrogen production:3||methyl jasmonate:3||ELICITATION:3||LIFECYCLE ASSESSMENT:3||MODELS:3||PAHS:3||BIOREACTOR:3||NONIONIC SURFACTANTS:3||MICROBIALDEGRADATION:3||PLANTS:3||benzophenanthridine alkaloid:3||THIOBACILLUSFERROOXIDANS:3||composting:3||Adsorption:2||thiocyanate:2||wastewater treatment:2||BIOCHEMICALMODEL:2||biofilm:2||STABILITY:2||predenitrification process:2||BIOLOGICAL NITROGEN REMOVAL:2||RESISTANCE:2||heterologous expression system:2||ironoxidizing bacteria:2||ACETOBUTYLICUM:2||salicylate:2||Remediation:2||biosorbent:2||surfactant recovery:2||biomaterial:2||LOWCOST ADSORBENTS:2||SOIL:2||MOLECULAR CHARACTERIZATION:2||Enhanced biodegradation:2||FERROUS IRON:2||RHIZOPUSARRHIZUS:2||SELECTIVE ADSORPTION:2||PROTONS:2||TROPANE ALKALOID PRODUCTION:2||Soil washing:2||Cokes wastewater:2||multivariate statistical process control:2||bioavailability:2||inhibition:2||BATCH REACTOR:2||Life cycle assessment:2||life cycle costing:2||Western blot:2||superoxide dismutase:2||CESSCP:2||OIL:2||CHLORRELAVULGARIS:2||MATURATION:2||software sensor:2||Hyoscyamus niger:2||ACTIVATEDSLUDGE TREATMENT:2||Reduction:2||modeling:2||microalgae:2||ACTIVATEDSLUDGE PROCESS:2||crab shell:2||AQUEOUSSOLUTION:2||DISSOLUTION:2||energy balance:2||COPTISJAPONICA:2||PATHWAY:2||soil washing:2||EVOLUTION:2||WASTEWATERS:2||transgenic tobacco:2||PSEUDOMONASPUTIDA:2||MANGROVE SEDIMENTS:2||E. coli:2||OPERON:2||PROBES:2||soil remediation:2||phosphorus removal:2||BACTERIAL COMMUNITIES:2||microbial community:2||decomposition:2||phenol:2||SUSPENSIONCULTURES:2||SLUDGE:2||CELLCULTURES:2||adsorptioncoupled reduction:2||SENSITIVE METHOD:2||biological CO2 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