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Continuous vapor-phase trichloroethylene biofiltration using hydrocarbon-enriched compost as filtration matrix
S. Sukesan, M. E. Watwood
Biological Sciences
Research output
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Contribution to journal
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Article
›
peer-review
16
Scopus citations
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Dive into the research topics of 'Continuous vapor-phase trichloroethylene biofiltration using hydrocarbon-enriched compost as filtration matrix'. Together they form a unique fingerprint.
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Keyphrases
Trichloroethylene
100%
Vapor Phase
100%
Filtration
100%
Hydrocarbons
100%
Biofiltration
100%
Enriched Compost
100%
Removal Efficiency
37%
Microbial Population
25%
Compost Type
25%
Debris
12%
Retention Time
12%
Bioreactor
12%
Methane
12%
Two-source
12%
Propane
12%
Heterotrophic
12%
Community-level Physiological Profile
12%
Trichloroethylene Degradation
12%
Wood chips
12%
Bark Compost
12%
Profile Analysis
12%
Granular Activated Carbon
12%
Percentage Removal
12%
Deciduous Leaves
12%
Gas-phase Bioreactors
12%
Gaseous Hydrocarbons
12%
Cometabolic
12%
Gas Stream
12%
Chemical Engineering
Trichloroethylene
100%
Biofiltration
100%
Biochemical Reactor
22%
Granular Activated Carbon
11%