|
photocatalysis |
7 |
|
climatic changes -- china -- hong kong |
6 |
|
environmental protection -- china -- hong kong |
6 |
|
microfluidics |
6 |
|
power resources -- china -- hong kong |
6 |
|
renewable energy sources -- technological innovations -- china -- hong kong |
6 |
|
cfd |
5 |
|
computational fluid dynamics |
5 |
|
dual-electrolyte |
5 |
|
flexible battery |
5 |
|
fuel cell |
5 |
|
membraneless fuel cell |
5 |
|
microfluidic fuel cell |
5 |
|
multi-ion chemistry |
5 |
|
paper battery |
5 |
|
photocatalytic |
5 |
|
solar |
5 |
|
air microbiology |
4 |
|
airborne transmission |
4 |
|
al ion battery |
4 |
|
carbon nitride |
4 |
|
cfd-statistical hybrid model |
4 |
|
cities |
4 |
|
co2 conversion |
4 |
|
computational fluid dynamics (cfd) |
4 |
|
disease outbreaks |
4 |
|
electrochemistry |
4 |
|
electrolyte |
4 |
|
fuel utilization |
4 |
|
hong kong |
4 |
|
hospital curtains |
4 |
|
housing |
4 |
|
infection control |
4 |
|
k-ε turbulence model |
4 |
|
models, theoretical |
4 |
|
numerical simulation |
4 |
|
particle transport |
4 |
|
pyrolysis |
4 |
|
screen print |
4 |
|
severe acute respiratory syndrome - epidemiology - transmission |
4 |
|
statistical method |
4 |
|
titanium dioxide |
4 |
|
transient turbulent dispersion |
4 |
|
urbanization |
4 |
|
visible light |
4 |
|
water-in-salt |
4 |
|
aaib |
3 |
|
accidental release |
3 |
|
aerodynamics |
3 |
|
air exchange rate (ach) |
3 |
|
air exchange rate (aer) |
3 |
|
air pollutants |
3 |
|
air pollution |
3 |
|
air temperature |
3 |
|
al corrosion |
3 |
|
al-air battery |
3 |
|
aluminum |
3 |
|
aluminum alloys |
3 |
|
aluminum-water electrochemical generator |
3 |
|
analysis |
3 |
|
angular velocity |
3 |
|
anodic wo3 |
3 |
|
anthraquinonic dye |
3 |
|
aqueous al-ion batteries |
3 |
|
aqueous al–ion batteries |
3 |
|
benzene degradation |
3 |
|
biomass |
3 |
|
biotrickling filter |
3 |
|
catalyst |
3 |
|
catalytic ozonation |
3 |
|
cfd analysis |
3 |
|
chromium ion implantation |
3 |
|
cl-assisted intercalation |
3 |
|
climate change |
3 |
|
co oxidation |
3 |
|
cold water thawing |
3 |
|
colloidal solution combustion synthesis |
3 |
|
computational fluid dynamic (cfd) modeling |
3 |
|
computational time |
3 |
|
computationally efficient |
3 |
|
cotton-based |
3 |
|
density functional theory |
3 |
|
design optimization |
3 |
|
diesel oxidation catalyst |
3 |
|
diesel particulate filter |
3 |
|
disinfection |
3 |
|
dual electrolyte |
3 |
|
electricity generation |
3 |
|
energy efficiency |
3 |
|
etching-induced photoanode |
3 |
|
eulerian dispersion model |
3 |
|
fatty acid |
3 |
|
gel electrolyte |
3 |
|
ground heating |
3 |
|
ground-level heating |
3 |
|
growth mechanism |
3 |
|
heat island |
3 |
|
high specific capacity |
3 |
|
high-capacity cathodes |
3 |
|
hot temperature |
3 |
|
hydrogen |
3 |
|
hydrogen peroxide |
3 |
|
hydrogen production |
3 |
|
isotope labeling |
3 |
|
k - ε turbulence model |
3 |
|
k-ε turbulence models |
3 |
|
lagrangian particle dispersion model (lpdm) |
3 |
|
large-eddy simulation (les) |
3 |
|
mesoporous binary metal oxide |
3 |
|
mno 2/al batteries |
3 |
|
mn 2alo 4 phase |
3 |
|
modeling |
3 |
|
molecular dynamics |
3 |
|
morphology control |
3 |
|
moving phase-change interface |
3 |
|
no reduction |
3 |
|
numerical modeling |
3 |
|
orthogonal experiment |
3 |
|
ozone |
3 |
|
paper-based |
3 |
|
parallel-plate photoreactor |
3 |
|
photocatalytic decolorization |
3 |
|
photochemical reactions |
3 |
|
photoelectrochemical water splitting |
3 |
|
photoreactor |
3 |
|
pseudomonas mendocina |
3 |
|
renewable energy |
3 |
|
sol-gel |
3 |
|
sol-gel thin film |
3 |
|
solar chimney power plant |
3 |
|
solidity |
3 |
|
starting torque |
3 |
|
street canyon |
3 |
|
street canyons |
3 |
|
suburban area |
3 |
|
swcnt cathodes |
3 |
|
temperature rise |
3 |
|
the growth mechanism of anodization |
3 |
|
thermal effects |
3 |
|
tio2 |
3 |
|
toluene degradation |
3 |
|
urban atmosphere |
3 |
|
urban heat island |
3 |
|
vacuum ultraviolet irradiation |
3 |
|
ventilation |
3 |
|
vuv |
3 |
|
vuv photolysis |
3 |
|
waste heat recovery |
3 |
|
wind turbine blade |
3 |
|
“water-in-salt” electrolytes |
3 |
|
2d mos2 cathode |
2 |
|
3d printing |
2 |
|
acid-alkaline |
2 |
|
acid-assisted method |
2 |
|
acid-salt |
2 |
|
activation overpotential |
2 |
|
adsorption |
2 |
|
air pollutant dispersion |
2 |
|
air pollutants - chemistry |
2 |
|
air quality |
2 |
|
al air battery |
2 |
|
al ink |
2 |
|
al-ion battery |
2 |
|
alcohols |
2 |
|
alkali-catalyzed transesterification |
2 |
|
aluminum chloride |
2 |
|
aluminum-air battery |
2 |
|
al‐air battery |
2 |
|
ammonia |
2 |
|
ammonia catalytic decomposition |
2 |
|
ammonia fuel |
2 |
|
aqueous al-ion battery |
2 |
|
aqueous electrolyte |
2 |
|
aqueous electrolytes |
2 |
|
area ratio |
2 |
|
areal capacity |
2 |
|
aspect ratio |
2 |
|
atmospheric boundary layer (abl) |
2 |
|
atmospheric dispersion modelling |
2 |
|
atmospheric processes - boundary layer processes |
2 |
|
atmospheric processes - turbulence |
2 |
|
atpap2 |
2 |
|
autothermal reforming |
2 |
|
aviation safety |
2 |
|
backward-facing steps |
2 |
|
battery |
2 |
|
battery bending |
2 |
|
benzene |
2 |
|
bifunctional oxygen catalyst |
2 |
|
bifunctional oxygen electrode |
2 |
|
biodiesel |
2 |
|
biogeosciences - pollution: urban, regional and global |
2 |
|
biomass-derived fuel |
2 |
|
biomimetic lipid-bilayer structures |
2 |
|
biophotolysis |
2 |
|
boundary layer |
2 |
|
building aerodynamics |
2 |
|
bvoc |
2 |
|
byproducts |
2 |
|
camelina sativa |
2 |
|
capacity |
2 |
|
capacity control |
2 |
|
capillary action |
2 |
|
carbon doping |
2 |
|
carbon nanotube |
2 |
|
carbon nanotubes |
2 |
|
carbon sequestration |
2 |
|
catalysis |
2 |
|
catalytic oxidation |
2 |
|
catalytic reforming |
2 |
|
cathode material |
2 |
|
cell architectures |
2 |
|
cell flow |
2 |
|
cerium dioxide |
2 |
|
chaotic flows |
2 |
|
charge separation |
2 |
|
charge transfer |
2 |
|
charge trapping |
2 |
|
chemistry box model |
2 |
|
co2 reduction |
2 |
|
computational geophysics - modeling |
2 |
|
computer modelling |
2 |
|
concentrated fuel |
2 |
|
concentration overpotential |
2 |
|
concentration overpotentials |
2 |
|
convective boundary layer (cbl) |
2 |
|
corrosion inhibition |
2 |
|
cost analysis |
2 |
|
costs |
2 |
|
counter-flow |
2 |
|
cuhcf cathodes |
2 |
|
current behaviors |
2 |
|
current density |
2 |
|
current-voltage characteristics |
2 |
|
dean vortices |
2 |
|
deep street canyon |
2 |
|
dendrite suppression |
2 |
|
direct formate fuel cell |
2 |
|
direct numerical simulation |
2 |
|
direct numerical simulation (dns) |
2 |
|
discharge process |
2 |
|
distributed and parallel computing |
2 |
|
divergent angle |
2 |
|
divergent chimney |
2 |
|
driven cavity |
2 |
|
dual ion batteries |
2 |
|
dual modes |
2 |
|
dye sensitization |
2 |
|
dye-sensitized solar cell |
2 |
|
dye-sensitized solar cell (dssc) |
2 |
|
dye-sensitized tio2 solar cell |
2 |
|
electric vehicles |
2 |
|
electricity cogeneration |
2 |
|
electricity output |
2 |
|
electricity production |
2 |
|
electrochemical model |
2 |
|
electrochemical modeling |
2 |
|
electrochemical thermodynamics |
2 |
|
electrochemistry model |
2 |
|
electrodes |
2 |
|
electrolyte pre-deposition |
2 |
|
electrolytic hydrogen production |
2 |
|
electron diffusion model |
2 |
|
embedded al |
2 |
|
emissions trading pilot scheme |
2 |
|
escherichia coli |
2 |
|
ethanol |
2 |
|
ethanol gel |
2 |
|
excitons |
2 |
|
exergy analysis |
2 |
|
f-tio2 |
2 |
|
feedstock |
2 |
|
fermentation |
2 |
|
finite element |
2 |
|
finite element method |
2 |
|
finite element method (fem) |
2 |
|
flexible |
2 |
|
flow channels |
2 |
|
flow visualization. |
2 |
|
fluid turbulence |
2 |
|
formaldehyde |
2 |
|
fuel cell stack |
2 |
|
fuel cells |
2 |
|
fuel processing |
2 |
|
fuel processor-fuel cell system |
2 |
|
functionally graded materials |
2 |
|
functionally-graded electrodes |
2 |
|
g-c3n4 nanosheet |
2 |
|
gas residence time |
2 |
|
gas yield |
2 |
|
gasification |
2 |
|
gaussian plume model |
2 |
|
glucose |
2 |
|
graphene |
2 |
|
graphene aerogel |
2 |
|
graphitic carbon nitride |
2 |
|
gravity |
2 |
|
guide wall |
2 |
|
h-sose |
2 |
|
heat transfer |
2 |
|
heating cycle |
2 |
|
heterointerface |
2 |
|
high energy density |
2 |
|
high voltage |
2 |
|
high-capacity cathode |
2 |
|
higher urban heat |
2 |
|
hole exhaustion |
2 |
|
horizontal wind fluctuations |
2 |
|
hot press |
2 |
|
hybrid battery |
2 |
|
hybrid zn battery |
2 |
|
hydrodynamic focusing |
2 |
|
hydrodynamics. |
2 |
|
hydrogen evolution |
2 |
|
iaq |
2 |
|
in-situ hydrogen generation |
2 |
|
indoor air |
2 |
|
interface impedance |
2 |
|
ion exchange membrane |
2 |
|
ion intercalation mechanism |
2 |
|
irreversibility |
2 |
|
isolated roughness flow |
2 |
|
j-v characteristics |
2 |
|
k - ε{lunate} turbulence model |
2 |
|
kinetic parameters |
2 |
|
laminar flow |
2 |
|
laminar flow fuel cell |
2 |
|
large-eddy simulation |
2 |
|
lateral flow test |
2 |
|
line sources |
2 |
|
linux cluster |
2 |
|
liquid-free |
2 |
|
literature review |
2 |
|
manganese oxide |
2 |
|
mass transfer |
2 |
|
mass transport |
2 |
|
mass/charge transfer dynamics |
2 |
|
material development |
2 |
|
mathematical modeling |
2 |
|
maximum power point |
2 |
|
mechanical recharge |
2 |
|
mechanically resuable battery |
2 |
|
membrane |
2 |
|
membraneless microfluidic fuel cell |
2 |
|
metal ion-implantation |
2 |
|
metal-air battery |
2 |
|
metal‐air battery |
2 |
|
methane |
2 |
|
methane fuel |
2 |
|
methane steam reforming |
2 |
|
methane steam reforming (msr) |
2 |
|
methanol synthesis |
2 |
|
methanol water mixture |
2 |
|
mg-air battery |
2 |
|
mg‐air battery |
2 |
|
microchannel |
2 |
|
microfluidic |
2 |
|
microorganism |
2 |
|
microstructure |
2 |
|
mineralization efficiency |
2 |
|
miniwatt applications |
2 |
|
miniwatt electronics |
2 |
|
mitigation |
2 |
|
mixed potential |
2 |
|
mn2+ |
2 |
|
modelling |
2 |
|
models, chemical |
2 |
|
multi-component mass transfer |
2 |
|
multi-functional photocatalyst |
2 |
|
multivalent-ion battery |
2 |
|
nanorods |
2 |
|
na–zn hybrid ions |
2 |
|
ni foam |
2 |
|
nocturnal ozone maxima |
2 |
|
non-aqueous electrolyte |
2 |
|
numerical heat and mass transfer |
2 |
|
numerical model |
2 |
|
o3 elimination and utilization |
2 |
|
ohmic overpotential |
2 |
|
one-equation sgs model |
2 |
|
open channel flow |
2 |
|
open-channel flow |
2 |
|
optimal electrode thickness |
2 |
|
overpotential losses |
2 |
|
oxygen doping |
2 |
|
oxygen-ion conductors |
2 |
|
ozone - chemistry |
2 |
|
ozone elimination |
2 |
|
paper based fuel cell |
2 |
|
paper-based battery |
2 |
|
paper-based fuel cell |
2 |
|
paper-based fuel cells |
2 |
|
parallel computation |
2 |
|
parallel computer |
2 |
|
parametric analyses |
2 |
|
parasitic current |
2 |
|
passivation reduction |
2 |
|
passive scalar plume |
2 |
|
pco-vuv |
2 |
|
pd-ag membrane |
2 |
|
pd–ag bimetals |
2 |
|
perovskite membranes |
2 |
|
persistence |
2 |
|
pes |
2 |
|
photocatalysts |
2 |
|
photocatalytic degradation |
2 |
|
photophysics |
2 |
|
photoreduction |
2 |
|
photosynthesis |
2 |
|
physics -- study and teaching (secondary) -- china -- hong kong |
2 |
|
physics -- textbooks |
2 |
|
plume rise and descent |
2 |
|
pollutant dispersion |
2 |
|
pollutant exchange rate (pch) |
2 |
|
pollutant transport |
2 |
|
polyethylene oxide |
2 |
|
polymer gel |
2 |
|
porosity |
2 |
|
porous electrode |
2 |
|
porous media |
2 |
|
power enhancement |
2 |
|
power output |
2 |
|
preparation |
2 |
|
printable battery |
2 |
|
product morphology |
2 |
|
proton conducting ceramics |
2 |
|
proton conducting electrolyte |
2 |
|
proton-conducting ceramics |
2 |
|
proton-conducting electrolyte |
2 |
|
purification |
2 |
|
quasi-neutral electrolyte |
2 |
|
quasi-solid-state battery |
2 |
|
quasiparticles |
2 |
|
radicals |
2 |
|
reduced graphene oxide |
2 |
|
reduced tio2 |
2 |
|
regional emissions trading |
2 |
|
renewable hydrogen |
2 |
|
renormalized-group (rng) k-ε turbulence model |
2 |
|
reversible solid oxide fuel cell (rsofc) |
2 |
|
reynolds-averaged navier-stokes (rans) equations |
2 |
|
rng k-e{open} turbulence model |
2 |
|
schottky barrier |
2 |
|
second-order closure model |
2 |
|
single-flow |
2 |
|
skimming flow |
2 |
|
small-scale prototype |
2 |
|
sodium salt |
2 |
|
sofc |
2 |
|
solar cell |
2 |
|
solar chimney |
2 |
|
solar hydrogen generation |
2 |
|
solid electrolyte |
2 |
|
solid oxide fuel cell |
2 |
|
solid oxide fuel cell (sofc) |
2 |
|
solid oxide steam electrolyzer |
2 |
|
solid oxide steam electrolyzer (sose) |
2 |
|
solid-oxide steam electrolysis |
2 |
|
sose |
2 |
|
sose hydrogen production |
2 |
|
space charge effect |
2 |
|
spatial engineering |
2 |
|
sps |
2 |
|
square cylinder |
2 |
|
standard deviation of wind component |
2 |
|
standard deviation of wind direction |
2 |
|
steam electrolysis |
2 |
|
steam reforming |
2 |
|
subgrid-scale (sgs) model |
2 |
|
sucrose |
2 |
|
sunlight |
2 |
|
supercritical water |
2 |
|
tg |
2 |
|
thermal effect |
2 |
|
thermodynamic analysis |
2 |
|
thiele modulus |
2 |
|
time factors |
2 |
|
tio2/tco interface |
2 |
|
tire |
2 |
|
titania |
2 |
|
toluene |
2 |
|
transport phenomena |
2 |
|
triple phase boundary (tpb) |
2 |
|
triple-phase boundary (tpb) |
2 |
|
tropical cyclone |
2 |
|
tropospheric ozone |
2 |
|
tubular cells |
2 |
|
turbulence |
2 |
|
turbulence model |
2 |
|
turbulent boundary layer. |
2 |
|
turbulent diffusion |
2 |
|
two-dimensional |
2 |
|
two-layer laminar flow |
2 |
|
ultra-small |
2 |
|
ultra-small tio2 |
2 |
|
unstable stratification |
2 |
|
unstably stratified atmosphere |
2 |
|
urban heat island (uhi) |
2 |
|
urban heating |
2 |
|
urban street canyon |
2 |
|
urban/rural area structures |
2 |
|
uv light |
2 |
|
vegetation |
2 |
|
vehicular emission |
2 |
|
vehicular pollution |
2 |
|
vertical plume meandering |
2 |
|
vocs |
2 |
|
vocs abatement |
2 |
|
vocs degradation |
2 |
|
vocs elimination |
2 |
|
vocs-to-nox ratio |
2 |
|
volatile organic compounds |
2 |
|
vuv irradiation |
2 |
|
vuv-pco |
2 |
|
wagner number |
2 |
|
wake interference flow |
2 |
|
wall model |
2 |
|
water |
2 |
|
water electrolysis |
2 |
|
water gas shift (wgs) |
2 |
|
water splitting |
2 |
|
wind estimators |
2 |
|
wind speed |
2 |
|
wind-buoyancy-driven flow |
2 |
|
zinc-air battery |
2 |
|
zinc-ion batteries |
2 |
|
zn-ag |
2 |
|
zn-air |
2 |
|
κ-ε |
2 |
|
光催化劑 (photocatalyst) |
2 |
|
制備 (preparation) |
2 |
|
納米材料 (nano-sized materials) |
2 |
|
2-phase reactor |
1 |
|
2-propanol |
1 |
|
acid value |
1 |
|
acid-alkaline electrolyte |
1 |
|
advanced oxidation processes |
1 |
|
advanced process |
1 |
|
aerodynamic characteristic |
1 |
|
aerogel |
1 |
|
air breathing |
1 |
|
air cathode |
1 |
|
air conditioning |
1 |
|
air exchange rate ach |
1 |
|
air flow-rate |
1 |
|
air pollutant |
1 |
|
air pollutants - analysis |
1 |
|
air pollution control |
1 |
|
air pollution modelling |
1 |
|
alkali tantalates |
1 |
|
alkaline transesterification |
1 |
|
alkaline-catalyzed transesterification |
1 |
|
aluminium anode |
1 |
|
aluminium-air cell |
1 |
|
aluminum-air cell |
1 |
|
aluminum-ion battery |
1 |
|
aluminum-water reaction |
1 |
|
aluminum. |
1 |
|
aluminum–air cell |
1 |
|
ambient temperature |
1 |
|
anaerobic |
1 |
|
analytical model |
1 |
|
anatase tio2 nanoparticles |
1 |
|
antibiotic-resistance gene |
1 |
|
antibiotics |
1 |
|
antifouling paint |
1 |
|
aqueous photocatalytic oxidation |
1 |
|
arbitrary lagrangian eulerian |
1 |
|
aromatic |
1 |
|
aromatic vocs |
1 |
|
atmospheric water harvesting |
1 |
|
atoms |
1 |
|
bi2s3 |
1 |
|
bifunctional catalyst |
1 |
|
biodiesel production |
1 |
|
biodiesel storage |
1 |
|
bioelectric energy sources |
1 |
|
bioethanol fuel |
1 |
|
biofilter |
1 |
|
biogas |
1 |
|
biomass gasifier |
1 |
|
bipolar plates |
1 |
|
bismuth oxyselenide |
1 |
|
bismuth semi-metal |
1 |
|
bismuth vanadate |
1 |
|
bivo4 |
1 |
|
bivo4 electrode |
1 |
|
body area network |
1 |
|
body sensor network |
1 |
|
boiler heating |
1 |
|
bubble accumulation |
1 |
|
bvoc emission |
1 |
|
camelina oil |
1 |
|
capacitor |
1 |
|
carbon dioxide |
1 |
|
carbon neutrality |
1 |
|
carbon reduction |
1 |
|
carbonate precipitation |
1 |
|
catalyst concentration |
1 |
|
catalyst layer cracking |
1 |
|
catalyst layers |
1 |
|
catalysts |
1 |
|
catalytic decomposition |
1 |
|
cathode flooding |
1 |
|
cathode polarization |
1 |
|
cattle manure |
1 |
|
cds nanorods |
1 |
|
cdse |
1 |
|
cell structure |
1 |
|
ceria |
1 |
|
cfbg |
1 |
|
cfd modelling |
1 |
|
char |
1 |
|
chemical looping combustion |
1 |
|
chemical pattern |
1 |
|
chemisorbed oxygen |
1 |
|
china |
1 |
|
cities - statistics and numerical data |
1 |
|
climatic impact |
1 |
|
cloud cover |
1 |
|
co-digestion |
1 |
|
co-flow |
1 |
|
co-laminar flow |
1 |
|
co-laminar flows |
1 |
|
co2 utilization |
1 |
|
coating |
1 |
|
coconut shell activated carbon |
1 |
|
combustion |
1 |
|
complete oxidation |
1 |
|
compressible airflow |
1 |
|
computational modeling |
1 |
|
conservation of energy resources |
1 |
|
controlling approach |
1 |
|
cu/zn/al/mn 催化剂 (cu-zn-al-mn catalyst) |
1 |
|
cultivation |
1 |
|
current status |
1 |
|
cv-eqcm |
1 |
|
cyclic operation |
1 |
|
damköhler number |
1 |
|
degradation |
1 |
|
degradation mechanism |
1 |
|
degradation mechanisms |
1 |
|
degradation pathways |
1 |
|
degradation rate |
1 |
|
denitrification |
1 |
|
deposition precipitation methods |
1 |
|
destruction pathway |
1 |
|
developed model |
1 |
|
development trends |
1 |
|
diesel emissions |
1 |
|
diffuser |
1 |
|
digital tunnel |
1 |
|
direct ammonia microfluidic fuel cell |
1 |
|
direct urea microfluidic fuel cell |
1 |
|
dna damage |
1 |
|
domestic cooking |
1 |
|
doping |
1 |
|
droplet |
1 |
|
dtg |
1 |
|
durability |
1 |
|
dust particulate |
1 |
|
dye-sensitized solar cells |
1 |
|
dynamic mesh |
1 |
|
dynamic meshing |
1 |
|
economic analysis |
1 |
|
effective emission factors |
1 |
|
electrochemical systems |
1 |
|
electrode configuration |
1 |
|
electrode polarizations |
1 |
|
electrode reactions |
1 |
|
electrolyte recycling |
1 |
|
electrolytic cell |
1 |
|
emission control |
1 |
|
emission factor |
1 |
|
encapsulation modification |
1 |
|
energetic photons |
1 |
|
energy |
1 |
|
energy consumption |
1 |
|
energy generated |
1 |
|
energy harvester |
1 |
|
energy recovery |
1 |
|
energy storage |
1 |
|
energy throughput |
1 |
|
engine emissions |
1 |
|
environmental engineering |
1 |
|
environmental monitoring |
1 |
|
environmentally-friendly |
1 |
|
ester |
1 |
|
exergy efficiency |
1 |
|
exhaust emissions |
1 |
|
extraction |
1 |
|
f-doped tio2 |
1 |
|
fe/zsm-5 |
1 |
|
fenton-like reactions |
1 |
|
fine suspended particulates |
1 |
|
fit |
1 |
|
fixed-bed reactor |
1 |
|
flow simulation |
1 |
|
flow through microfluidic fuel cell |
1 |
|
flow-through microfluidic fuel cell |
1 |
|
flow-through porous electrode |
1 |
|
fluent |
1 |
|
food waste |
1 |
|
forced air movement |
1 |
|
formaldehyde oxidation |
1 |
|
formic acid |
1 |
|
fourier transform infrared spectroscopy |
1 |
|
ftir study |
1 |
|
fuel |
1 |
|
fuel boundary layer |
1 |
|
fuel consumption prediction |
1 |
|
fuel crossover |
1 |
|
fuel dilution |
1 |
|
fuel efficiency |
1 |
|
fuel recirculation |
1 |
|
fugitive dust |
1 |
|
furan |
1 |
|
gas diffusion layer |
1 |
|
gas-emission anode |
1 |
|
gaseous benzene |
1 |
|
gaseous vuv photolysis |
1 |
|
gases production |
1 |
|
gasoline - analysis |
1 |
|
geological storage |
1 |
|
geometric similarity |
1 |
|
global climate change |
1 |
|
glycerol |
1 |
|
government |
1 |
|
graetz number |
1 |
|
graphene oxide |
1 |
|
green diesel |
1 |
|
h 2 production |
1 |
|
h2 production |
1 |
|
hangars |
1 |
|
hcho elimination |
1 |
|
hchooxidation |
1 |
|
health impact |
1 |
|
heat conduction enhancement |
1 |
|
heat management |
1 |
|
heating |
1 |
|
heterogeneous uv/fenton |
1 |
|
heterojunction |
1 |
|
high discharge voltage |
1 |
|
high efficiency |
1 |
|
high fuel utilization |
1 |
|
high performance |
1 |
|
high throughput |
1 |
|
high-order finite-difference method |
1 |
|
hong kong international airport (hkia) |
1 |
|
human urine |
1 |
|
humans |
1 |
|
hydrogel template method |
1 |
|
hydrogen generation |
1 |
|
hydrogen/oxygen regenerative fuel cell |
1 |
|
hydrolysis |
1 |
|
hydroprocessed vegetable oil |
1 |
|
hydrothermal method |
1 |
|
hygroscopic material |
1 |
|
ideal gas law |
1 |
|
immobilization |
1 |
|
in 2s 3 |
1 |
|
in situ growth |
1 |
|
infiltration |
1 |
|
influencing factor |
1 |
|
inoculums to substrate ratio |
1 |
|
inorganic/organic hybrid electrolyte |
1 |
|
instantaneous power model |
1 |
|
intermediates |
1 |
|
internal combustion engines |
1 |
|
isoprene |
1 |
|
janus structure |
1 |
|
k+ |
1 |
|
kinetic |
1 |
|
lagrangian particle model |
1 |
|
land use |
1 |
|
lanthanide |
1 |
|
lca |
1 |
|
leakage and monitoring |
1 |
|
life cycle analysis |
1 |
|
local pollutant exchange rate ω |
1 |
|
long-duration energy storage |
1 |
|
low charging voltage |
1 |
|
low costs |
1 |
|
low-level wind effect |
1 |
|
lspr |
1 |
|
manganese oxides |
1 |
|
mask reuse |
1 |
|
master-plots |
1 |
|
mc2 |
1 |
|
mc2 model |
1 |
|
mechanism |
1 |
|
membraneless |
1 |
|
mesoporous ceo2 |
1 |
|
mesoporous tio2 |
1 |
|
mesoscale meteorological model |
1 |
|
mesoscale meteorological modelling |
1 |
|
metal-organic framework |
1 |
|
metallic pd |
1 |
|
metallic pt |
1 |
|
meteorological concepts |
1 |
|
methanol |
1 |
|
methanol-based anolyte |
1 |
|
methyl ester |
1 |
|
methylene blue |
1 |
|
micro-scale |
1 |
|
microfluidic fuel cells |
1 |
|
microfluidic reactor |
1 |
|
mineralization |
1 |
|
mn doping |
1 |
|
mn-tio2 |
1 |
|
mn/g-c3n4/zsm-4 |
1 |
|
mn/tio2/ac |
1 |
|
mn/tio2/zsm-5 |
1 |
|
mn/zsm-5 |
1 |
|
mnox |
1 |
|
mofs |
1 |
|
monoterpene |
1 |
|
multi-buildings |
1 |
|
multi-functional catalyst |
1 |
|
nabh 4 reduction |
1 |
|
nanotubes |
1 |
|
navier-stokes equations |
1 |
|
ni2pphosphidation |
1 |
|
nickel loaded carbon nanotube |
1 |
|
nicu/cnts catalysts |
1 |
|
nitric oxide - analysis |
1 |
|
nitrification |
1 |
|
nitrogen dioxide - analysis |
1 |
|
nitrogen oxides |
1 |
|
no2 |
1 |
|
non-thermal plasma |
1 |
|
nonlinear diffusion |
1 |
|
nonthermal plasma |
1 |
|
nonthermal plasma (ntp) |
1 |
|
nox removal |
1 |
|
numerical modelling |
1 |
|
numerical models |
1 |
|
numerical wave flume |
1 |
|
nutrient removal |
1 |
|
o2 molecule |
1 |
|
o3 |
1 |
|
o3 elimination |
1 |
|
oh group |
1 |
|
oh groups |
1 |
|
oil |
1 |
|
operational condition |
1 |
|
optimization |
1 |
|
organic rankine cycle |
1 |
|
organics degradation |
1 |
|
other vocs |
1 |
|
overlapping grid |
1 |
|
oxyfuel combustion |
1 |
|
oxygen carrier |
1 |
|
oxygen vacancies |
1 |
|
ozone generator |
1 |
|
ozone - analysis |
1 |
|
ozone bimodal variation |
1 |
|
ozone catalytic decomposition |
1 |
|
ozone catalytic oxidation |
1 |
|
ozone decomposition |
1 |
|
ozone-assisted catalytic oxidation |
1 |
|
ozone-assisted oxidation |
1 |
|
ozone-catalytic oxidation |
1 |
|
p-n junction photocatalyst |
1 |
|
palladium |
1 |
|
parametric optimization |
1 |
|
particle trajectories |
1 |
|
payback period |
1 |
|
pd/tio 2 |
1 |
|
peroxymonosulfate |
1 |
|
ph-differential |
1 |
|
ph-differential technique |
1 |
|
ph/conductivity degradation |
1 |
|
photocatalyst |
1 |
|
photocatalytic activity |
1 |
|
photocatalytic hydrogen production |
1 |
|
photocatalytic mechanism |
1 |
|
photocatalytic oxidation |
1 |
|
photocatalytic ozonation |
1 |
|
photocatalytic performance |
1 |
|
photocatalytic reduction and oxidation |
1 |
|
photocatalytic reforming |
1 |
|
photocatalytic rotating reactor |
1 |
|
photoelectrocatalysis |
1 |
|
photoelectrocatalytic |
1 |
|
photoionization |
1 |
|
photolysis |
1 |
|
photothermal adsorbent |
1 |
|
plant oils |
1 |
|
plasma-catalysis |
1 |
|
plasma-driven catalysis (pdc) |
1 |
|
plasmonic heterojunction |
1 |
|
plasmonic p-n heterojunction photocatalyst |
1 |
|
plasmonic photocatalyst |
1 |
|
platinum |
1 |
|
platinum group metal nanoparticles |
1 |
|
platinum nanoparticle |
1 |
|
pm10 |
1 |
|
pm2.5 |
1 |
|
policy |
1 |
|
pollutant exchange rate pch |
1 |
|
polymer |
1 |
|
polymeric templating synthesis |
1 |
|
polyols |
1 |
|
post-combustion |
1 |
|
power generation |
1 |
|
practical application |
1 |
|
practical applications |
1 |
|
pre-combustion |
1 |
|
producer gas |
1 |
|
product distribution |
1 |
|
proton exchange membrane |
1 |
|
pt nanoparticles |
1 |
|
pt/tio 2 |
1 |
|
public transport interchange |
1 |
|
purity |
1 |
|
reaction kinetics |
1 |
|
reactive oxygen species |
1 |
|
reactor design |
1 |
|
redox property |
1 |
|
reduced graphene oxides |
1 |
|
regression analysis |
1 |
|
removal |
1 |
|
removal of cr6+ |
1 |
|
renewable diesel |
1 |
|
renewable fuel |
1 |
|
respirable suspended particulates |
1 |
|
revenue |
1 |
|
reversible microfluidic fuel cell |
1 |
|
reversible solid oxide fuel cell |
1 |
|
rice hull gasification |
1 |
|
road traffic |
1 |
|
road transport related air pollution |
1 |
|
roomtemperature |
1 |
|
ruthenium platinum core–shell nanoparticle |
1 |
|
s-scheme |
1 |
|
scale out |
1 |
|
scaling up |
1 |
|
scaling-up |
1 |
|
seasons |
1 |
|
seawater scrubber |
1 |
|
separation |
1 |
|
shunt current analysis |
1 |
|
si vehicle |
1 |
|
simplified fluid management |
1 |
|
simultaneous removal |
1 |
|
single-atom catalyst |
1 |
|
sio2 |
1 |
|
size effect |
1 |
|
so2 |
1 |
|
solar panel |
1 |
|
solvothermal |
1 |
|
spark ignition vehicle |
1 |
|
spirulina platensis |
1 |
|
stability |
1 |
|
stacking |
1 |
|
statistics |
1 |
|
stereolithography |
1 |
|
streamline upwind petrov-galerkin method |
1 |
|
street level air pollutants forecast |
1 |
|
street level air pollution forecast |
1 |
|
street-canyon |
1 |
|
structural properties |
1 |
|
supercapacitor |
1 |
|
surface-bound radicals |
1 |
|
surface-temperature |
1 |
|
synergistic mechanism |
1 |
|
syngas |
1 |
|
technology & engineering / nanotechnology & mems |
1 |
|
temperature |
1 |
|
terrain |
1 |
|
tga |
1 |
|
thermo-economic analysis |
1 |
|
thermodynamic |
1 |
|
three-dimensional sponge electrode |
1 |
|
three-step fractional method |
1 |
|
tio 2 |
1 |
|
tio2 nanotube arrays |
1 |
|
tio2 nanowire arrays |
1 |
|
titration |
1 |
|
toluene destruction |
1 |
|
toluene oxidation |
1 |
|
training |
1 |
|
transport |
1 |
|
tyre fiber |
1 |
|
tyre powder |
1 |
|
ultrasonic-assisted |
1 |
|
unitized regenerative alkaline fuel cell |
1 |
|
unitized regenerative fuel cell |
1 |
|
up-scaling |
1 |
|
urban |
1 |
|
urban areas |
1 |
|
urban canopy layer |
1 |
|
urban cool island |
1 |
|
urban population |
1 |
|
uv/pms |
1 |
|
uvc |
1 |
|
vacancy |
1 |
|
vacuum ultraviolet |
1 |
|
vacuum uv irradiation |
1 |
|
vapor compression cycle |
1 |
|
vapor feed |
1 |
|
vapor-feed |
1 |
|
vehicle emission control strategies |
1 |
|
velocity |
1 |
|
vocs removal |
1 |
|
vof method |
1 |
|
volume average pollutant concentration θ |
1 |
|
waste oil |
1 |
|
waste tire |
1 |
|
waste tyre |
1 |
|
wastewater treatment |
1 |
|
water flooding |
1 |
|
water vapor |
1 |
|
water vapor content |
1 |
|
weather |
1 |
|
wet scrubbing process |
1 |
|
wind |
1 |
|
wind turbine |
1 |
|
wood powder |
1 |
|
working fluid |
1 |
|
z-scheme |
1 |
|
z-scheme heterojunction photocatalyst |
1 |
|
z-scheme photocatalyst |
1 |
|
zinc-air flow battery |
1 |
|
znsn(oh)6 |
1 |
|
一氧化碳/二氧化碳加氢 (co/co2 hydrogenation) |
1 |
|
合成甲醇 (methanol synthesis) |
1 |
