grant
Project 4: Pyrolytic conversion of PAHs in contaminated sediments into char to eliminate toxicity and enhance soil fertility
Organization BAYLOR COLLEGE OF MEDICINELocation HOUSTON, UNITED STATESPosted 28 Feb 2020Deadline 31 Jan 2030
NIHUS FederalResearch GrantFY2026AbscissionAccelerationAdsorptionAffectAmendmentAromatic Polycyclic HydrocarbonsBehaviorCarbonCatalytic CoreCatalytic DomainCatalytic RegionCatalytic SiteCatalytic SubunitCationsCharsClinicalDegradation PathwayDegradative PathwayDetectionDiseaseDisorderDrug Metabolic DetoxicationDrug Metabolic DetoxificationEcologic SystemsEcological SystemsEconomicsEcosystemElectron TransportEnvironmentExcisionExtirpationFecundabilityFecundityFertilityFree RadicalsFundingGoalsHeatingHydrophobicityIQ DeficitIncinerationKineticsKnowledgeLytotoxicityMathMathematicsMetabolic Drug DetoxicationsMetabolism of Toxic AgentsMetalsMethodsMineralsMolecularMolecular Modeling Nucleic Acid BiochemistryMolecular Modeling Protein/Amino Acid BiochemistryMolecular ModelsNeurocognitive DeficitOutcomePathway interactionsPerformancePolymersPremature BirthPrematurely deliveringPreterm BirthPreventionProcessPublic HealthPyrenesReactionRecoveryRemovalResearchResidualResidual stateRiskSalvelinusSiteSoilSuperfundSurgical RemovalSystemTechniquesTechnologyTemperatureTestingThermal DestructionTimeToxic effectToxicitiesTransition Elementscatalystclaycold temperaturecontaminated sedimentcostcost effectivecytotoxicitydensitydesigndesigningdetoxificationdouble bondearly life exposureeconomicelectron transferhematiteintelligence quotient deficitlow temperaturemodel designmolecular modelingneurocognitive declineneurocognitive impairmentnoveloxidationpathwaypi bondpollutantpolyaromatic hydrocarbonspolymerpolymericpolynuclear aromatic hydrocarbonpremature childbirthpremature deliverypreterm deliveryreal world applicationremediationresectionrestorationsuperfund sitetheoriestransition metal
Description preview
Project Summary
There is a pressing need for more reliable and cost-effective remediation of contaminated soils and sediments
at Superfund sites to mitigate exposure and protect public health. This project will develop a sustainable
thermal remediation technology to rapidly and reliably treat soils contaminated with such priority pollutants,…
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