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Bacterial degradation of styrene in waste gases using a peat filter
Mona Arnold
*
, A. Reittu
, Atte von Wright
, P.J. Martikainen
, Maija-Liisa Suihko
*
Corresponding author for this work
University of Eastern Finland
VTT (former employee or external)
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
103
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Citations (Scopus)
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Agricultural and Biological Sciences
Microflora
100%
Biofilter
100%
Tsukamurella
100%
Pseudomonas
100%
Sphingomonas
100%
Water Balance
100%
Purple Bacteria
100%
Xanthomonas
100%
Biofiltration
100%
Keyphrases
Peat
100%
Styrene
100%
Bacterial Degradation
100%
Waste Gas
100%
Filter Material
28%
Styrene Degradation
28%
Humidity
14%
Off-gas
14%
Operation Temperature
14%
Carbon Dioxide
14%
Bacterial Isolates
14%
Proteobacteria
14%
Filtration Efficiency
14%
Public Health
14%
Pseudomonas
14%
Environmental Health
14%
Water Balance
14%
Isolated Bacteria
14%
Gasses
14%
Microflora
14%
Level Control
14%
Xanthomonas
14%
Sphingomonas
14%
Reduction Rate
14%
Downflow
14%
Intermediate Degradation Products
14%
Biofiltration System
14%
Optimum Operation
14%
Toxic Intermediates
14%
Elimination Capacity
14%
Tsukamurella
14%
Biofilter
14%
Control Efficacy
14%
Upflow
14%
Neutral Level
14%
Styrene Removal
14%
INIS
wastes
100%
gases
100%
filters
100%
peat
100%
styrene
100%
operation
20%
capacity
20%
efficiency
10%
levels
10%
control
10%
balances
10%
water
10%
concentration
10%
biomass
10%
adjustments
10%
reduction
10%
removal
10%
carbon dioxide
10%
toxicity
10%
bacteria
10%
filtration
10%
humidity
10%
maintenance
10%
pseudomonas
10%
nutrients
10%
public health
10%
microflora
10%
carbon 12
10%
Chemical Engineering
Styrene
100%
Carbon Dioxide
10%
Degradation Intermediates
10%
Biofiltration
10%
Optimum Operation
10%