Engineering
Microbial Fuel Cell
100%
Microbial Electrolysis Cell
92%
Microbial
77%
Energy Engineering
73%
Bioanodes
69%
Capacitive
65%
Anodes and Cathode
50%
Hydrogen Gas
49%
Cation Exchange Membrane
48%
Removal Rate
43%
Internal Resistance
41%
Exchange Membrane
38%
Ion Exchange
38%
Energy Input
36%
Electrical Energy
36%
Limitations
34%
Energy Storage
32%
Anion Exchange Membrane
32%
High Current Density
31%
Load Ratio
30%
Power Density
29%
Hydrogen Production
28%
Electron Donor
26%
Removal Efficiency
25%
Applied Voltage
24%
Hydrophobic
24%
Electrodialysis
24%
Wastewater Treatment
22%
Methanogen
21%
Reverse Electrodialysis
21%
Charge Transport
21%
Secondary Battery
21%
Microbial Community
20%
Substrate Concentration
19%
Moving Bed
17%
Fouling
15%
Growth Kinetics
14%
Pressure Drop
14%
Mols
14%
Current Efficiency
13%
Biomass Yield
13%
Low-Temperature
12%
Organic Material
12%
Hydroxyl Ion
10%
Electron Acceptor
10%
Flow Speed
10%
Granular Activated Carbon
10%
Extracellular Polymeric Substance
10%
Biofouling
10%
Multistage
10%
Keyphrases
Bioelectrochemical System
43%
Cathode Compartment
36%
Anode Chamber
30%
Microbial Electrolysis Cell
23%
Ammonium Recovery
21%
Bioelectrochemical Process
21%
Ammonium
18%
Current Density
18%
Anion Exchange Membrane
17%
Bioelectrode
16%
Anode Potential
15%
Hydrophobic Membrane
14%
Electrochemical Techniques
14%
Porous Anode
14%
Acetate
13%
Nitrogen Recovery
13%
Microbial Fuel Cell
13%
Biofilm Thickness
12%
Microorganisms
11%
Buffer Requirements
11%
Hydrogenotrophic
10%
Caproate
10%
Hydrogen Gas
10%
Moving-bed Reactor
10%
Chemical Efficiency
10%
Capacitive Bioanode
10%
Electrical Energy
10%
Electrogens
10%
Copper Recovery
10%
Fouling Analysis
10%
Cathode Potential
10%
Sulfide Removal
10%
Energetic Losses
10%
Battery Energy Storage
10%
Ammonia Recovery
10%
Cell Performance
10%
Polyfluoroalkyl Substances
10%
Membrane Stripping
10%
Cell Population Dynamics
10%
Anaerobic Digester Centrate
10%
Anode Performance
10%
Bipolar Membrane Electrodialysis
10%
Group of People
10%
Methanoperedens
10%
Gas Mass Transfer
10%
Electroactive Biofilm
10%
Thiocyanate Degradation
10%
Biocathode
10%
Phototrophs
10%
Source to Tap
10%