Ingeniería y ciencia de los materiales
Borides
100%
Solid wastes
98%
Piles
90%
Bubble columns
76%
Ultrafiltration
74%
Boriding
73%
Temperature
64%
Boron
61%
Biological materials
53%
Steel
52%
Moisture
47%
Peptide Hydrolases
41%
Bioreactors
40%
Yeast
40%
Microfiltration
39%
Growth kinetics
39%
Fermentation
37%
Fractionation
35%
Mechanical properties
35%
Greenhouses
32%
Alternative fuels
30%
Shear deformation
27%
Wear of materials
26%
Evaporation
26%
Wear resistance
25%
Hardness
24%
Mathematical models
24%
Membranes
22%
Nanoindentation
21%
Atmospheric humidity
21%
Solar radiation
19%
Friction
18%
Drying
18%
X ray diffraction
17%
Glycosides
16%
Fluxes
16%
Gases
15%
Diffusion in solids
15%
Hot Temperature
14%
Scanning electron microscopy
14%
Carbohydrates
12%
Proteins
12%
Microstructure
12%
Furnaces
11%
Nickel alloys
11%
Dehydration
11%
Powders
10%
Wood fuels
10%
Natural convection
10%
Química
Ultrafiltration
81%
Bubble Columns
75%
Mulch
74%
Calorific Value
71%
Solid Waste
66%
Humidity
58%
Organic Matter
57%
Fermentation
56%
Boron Atom
46%
Orange
46%
Diffusion
38%
Time
37%
Bioreactors
36%
Dehydration
34%
Wear
33%
Fuel
33%
Volume
30%
Energy Consumption
29%
Turnover Frequency
29%
Friction Coefficient
29%
Evaporation
26%
Solar Radiation
24%
Shear
24%
Fractionation
23%
Convective Heat Transfer
22%
Flow
21%
Resistance
21%
Surface
20%
Industry
19%
Food
19%
Cylinder
19%
Alloy
18%
Reduction
18%
Mixture
17%
Filtration
17%
Glycoside
17%
Charcoal
15%
Carbohydrate
14%
Mass Transfer
14%
Weight
14%
Gas
14%
Pressure
14%
Nickel Alloy
12%
Microstructure
12%
Heat
12%
Amount
11%
Pharmacological Metabolism
11%
Scanning Electron Microscopy
10%
Energy
10%
Carbon Dioxide
10%
Ciencias ambientales y de la tierra
solid waste
75%
pile
70%
alternative fuel
34%
microfiltration
31%
ultrafiltration
28%
temperature
27%
organic matter
27%
temperature profile
26%
yeast
26%
fermentation
24%
solar radiation
23%
evaporation
17%
microbial activity
17%
humidity
15%
moisture
13%
moisture content
11%
modeling
11%
convection
10%
combustion
10%
organic waste
9%
thermal conductivity
9%
finite difference method
9%
pore space
9%
dehydration
9%
energy balance
8%
effect
7%
mass transfer
7%
special waste
7%
consumption
6%
degradation
5%
oxygen
5%
mulch
5%
biomass
5%
nitrogen
5%