Engineering & Materials Science
Methane
100%
Acids
97%
Biofiltration
92%
Depolymerization
82%
Biodegradation
75%
Residence time distribution
74%
Fungi
73%
Metabolism
68%
Packed beds
64%
Ecosystems
57%
Rebar
57%
Flow of gases
51%
Tomography
51%
Logistics
48%
Calibration
47%
Sand
47%
Characterization (materials science)
46%
Fluxes
43%
Enzymes
41%
Bacteria
40%
Computational fluid dynamics
40%
Polymers
39%
Sensitivity analysis
34%
Citric Acid Cycle
34%
Gases
30%
Chemostats
30%
Carbon
27%
Metabolites
24%
Adenosinetriphosphate
23%
Nitrogen
22%
Water
20%
Glucose
20%
Oxygen
19%
Dynamic models
17%
Metabolic engineering
16%
Proteins
16%
Costs
16%
Markov chains
16%
Minerals
14%
Hydrogen
14%
Functional groups
14%
Nutrients
13%
Process engineering
13%
Experiments
12%
Monomers
12%
Biological Availability
12%
Tracers
12%
Computer simulation
11%
Economics
11%
Polyesters
11%
Sensors
10%
Navier Stokes equations
10%
Potassium Nitrate
10%
Packaging
9%
Oxides
9%
Microorganisms
9%
Flow fields
8%
Probability distributions
8%
Solubility
8%
Greenhouse gases
7%
Substrates
7%
Structural design
7%
Mathematical models
7%
Recovery
7%
Parameter estimation
7%
Soils
7%
Biomass
6%
Metals
6%
Engineers
5%
Degradation
5%
Earth & Environmental Sciences
methane
81%
biofiltration
68%
solubilization
60%
computational fluid dynamics
55%
gas flow
53%
acid
50%
residence time
47%
fungus
46%
tomography
46%
biodegradation
46%
metabolism
45%
enzyme
43%
chemostat
36%
sand
32%
environmental assessment
28%
simulation
27%
gas
27%
fixation
26%
distribution
25%
glucose
24%
metabolite
24%
bacterium
21%
oxygen
21%
hydrogen
20%
nitrogen
20%
protein
19%
experiment
17%
economics
15%
energy source
13%
parameter
12%
sensor
12%
method
11%
water
11%
modeling
11%
metal oxide
10%
methodology
10%
triaxial test
10%
Markov chain
9%
vermiculite
9%
Navier-Stokes equations
9%
carbon
8%
partition coefficient
8%
flow field
8%
microcosm
8%
mineral
7%
sensitivity analysis
7%
bioavailability
7%
rate
7%
analysis
7%
tracer
7%
greenhouse gas
6%
solubility
6%
reactor
6%
calibration
6%
filter
6%
human activity
5%
microorganism
5%
Chemical Compounds
(R)-3-Hydroxybutyric Acid
95%
Methane
84%
Polyhydroxyalkanoate
72%
Poly(3-Hydroxybutyrate)
71%
Depolymerization
59%
Biodegradation
56%
Residence Time
55%
Solubilization
52%
Chemostats
41%
Pharmacological Metabolism
41%
Strain
37%
Tricarboxylic Acid
34%
Simulation
33%
Gas
28%
Glucose
19%
Metabolite
18%
Acid
18%
Velocity
17%
Dioxygen
16%
Hydrogen
13%
Carbon Atom
12%
Mineral
11%
Protein
11%
Greenhouse Gas
9%
Energy
9%
Metal Oxide
8%
Partition Coefficient
7%
Bioavailability
7%
Degradation Rate
7%
Shape
6%
Column Like Crystal
6%
Nutrient
6%
pH Value
5%
Reaction Yield
5%
Polyester
5%