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Enhanced in-situ biodegradation and aquifer permeability reduction
Stewart W. Taylor,
Peter R. Jaffe
Civil & Environmental Engineering
Andlinger Center for Energy & the Environment
High Meadows Environmental Institute
Princeton Institute for the Science and Technology of Materials
Research output
:
Contribution to journal
›
Article
›
peer-review
37
Scopus citations
Overview
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Engineering & Materials Science
Aquifers
92%
Biodegradation
100%
Biofilms
72%
Biofouling
80%
Biomass
16%
Bioremediation
58%
Electrons
53%
Groundwater
21%
Oxygen
57%
Pore size
20%
Porosity
15%
Porous materials
35%
Shearing
19%
Substrates
37%
Water
9%
Water injection
21%
Earth & Environmental Sciences
aquifer
52%
biodegradation
61%
biofilm
48%
biofouling
65%
biomass
10%
bioremediation
34%
electron
37%
groundwater
10%
in situ
43%
oxygen
46%
permeability
48%
porosity
12%
porous medium
30%
pumping
15%
rate
5%
recharge
15%
substrate
36%
water
10%
well
23%
Chemical Compounds
Biodegradation
75%
Dioxygen
34%
Electron Acceptor
33%
Electron Donor
32%
Filtration
15%
Groundwater
19%
Permeability
57%
Pore
11%
Pore Size
14%
Porosity
10%
Reduction
32%