|
indoor air quality |
7 |
|
thermal comfort |
6 |
|
centrifuge |
5 |
|
evaporation |
5 |
|
hybrid nanofluid |
5 |
|
personalized ventilation |
5 |
|
resuspension |
5 |
|
adsorption cooling system |
4 |
|
dust |
4 |
|
energy saving |
4 |
|
flagpole |
4 |
|
fluttering phenomenon |
4 |
|
infection risk |
4 |
|
modeling |
4 |
|
particle deposition |
4 |
|
pm 2.5 |
4 |
|
radiative cooling |
4 |
|
simulation |
4 |
|
size distribution |
4 |
|
triboelectric nanogenerators |
4 |
|
turbulent flow |
4 |
|
volatile organic compounds |
4 |
|
wind energy |
4 |
|
zeolite |
4 |
|
acoustic streaming |
3 |
|
activated carbon |
3 |
|
adsorption system |
3 |
|
aerosols |
3 |
|
air cleaner location |
3 |
|
airborne infection |
3 |
|
bamboo |
3 |
|
catalytic oxidation |
3 |
|
cfd simulation |
3 |
|
co-combustion |
3 |
|
cooling |
3 |
|
covid-19 |
3 |
|
dental clinic |
3 |
|
detachment |
3 |
|
droplet |
3 |
|
effective thermal conductivity |
3 |
|
electrospinning |
3 |
|
emission rate |
3 |
|
fabric |
3 |
|
flexible surface |
3 |
|
human movement |
3 |
|
infection risk assessment |
3 |
|
infectious disease |
3 |
|
mathematical model |
3 |
|
nanofluids |
3 |
|
ozone |
3 |
|
particle dynamics |
3 |
|
personal exposure |
3 |
|
respiratory disease |
3 |
|
risk assessment |
3 |
|
solar energy |
3 |
|
thermal radiation |
3 |
|
ultrafine particles |
3 |
|
vibration |
3 |
|
wireless sensor node |
3 |
|
acoustic radiation pressure |
2 |
|
acoustics |
2 |
|
acoustics streaming |
2 |
|
acoustophoresis |
2 |
|
adsorbent |
2 |
|
aerodynamic effect |
2 |
|
aerosol dispersion |
2 |
|
aerosol removal |
2 |
|
age of air |
2 |
|
aged care indoor particles |
2 |
|
agglomeration |
2 |
|
air filtration |
2 |
|
air source heat pump |
2 |
|
air velocity |
2 |
|
airborne bacteria |
2 |
|
airborne droplets |
2 |
|
airborne transmission |
2 |
|
airflow and computational fluid dynamics |
2 |
|
airflow distance |
2 |
|
airflow simulation |
2 |
|
arizona test dust |
2 |
|
b.l.o. tri-modal model |
2 |
|
backrest |
2 |
|
bio-inspired |
2 |
|
biomass |
2 |
|
biomimicry |
2 |
|
boiling |
2 |
|
bronchiolar |
2 |
|
building energy saving |
2 |
|
building energy simulation |
2 |
|
carbon neutrality |
2 |
|
carbon peak |
2 |
|
catalytic combustion |
2 |
|
child care indoor particles |
2 |
|
china |
2 |
|
cleanroom |
2 |
|
coal fly ash |
2 |
|
computational fluid dynamics |
2 |
|
computational fluid dynamics (cfd) |
2 |
|
conduction |
2 |
|
containment effectiveness |
2 |
|
contaminated surface |
2 |
|
cooking |
2 |
|
cool paint |
2 |
|
critical residue size |
2 |
|
darrieus wind turbine |
2 |
|
data center |
2 |
|
daytime radiative cooling |
2 |
|
demand control ventilation |
2 |
|
detachment behavior |
2 |
|
detachment from surface |
2 |
|
disinfection |
2 |
|
disordered heterogeneous materials |
2 |
|
droplet evaporation |
2 |
|
droplet phase change |
2 |
|
droplet residue |
2 |
|
droplet resuspension |
2 |
|
droplet spreading |
2 |
|
droplets |
2 |
|
dual carbon goal |
2 |
|
effective medium theory |
2 |
|
electric field |
2 |
|
electromagnetism |
2 |
|
emissions forecast |
2 |
|
experimental analysis |
2 |
|
filtration |
2 |
|
finite difference method |
2 |
|
flapping moment |
2 |
|
flow boiling |
2 |
|
fluctuating period |
2 |
|
fully developed turbulent flow |
2 |
|
gas-solid |
2 |
|
gasper jet |
2 |
|
heat conduction |
2 |
|
heat transfer |
2 |
|
heat transfer coefficient |
2 |
|
heated residue |
2 |
|
home indoor particles |
2 |
|
homes |
2 |
|
hong kong |
2 |
|
hospital ward |
2 |
|
human expired aerosol |
2 |
|
hybrid nanofluid droplet |
2 |
|
incense |
2 |
|
incense burning |
2 |
|
indoor aerosols |
2 |
|
indoor particulate matter |
2 |
|
indoor ultrafine particles |
2 |
|
infectious respiratory disease |
2 |
|
inhalation zone |
2 |
|
jing wang |
2 |
|
laryngeal |
2 |
|
latent heat flux |
2 |
|
lattice boltzmann method |
2 |
|
light-matter interaction |
2 |
|
likelihood estimation |
2 |
|
liquid film |
2 |
|
lung cancer risk |
2 |
|
marangoni convection |
2 |
|
marangoni effect |
2 |
|
methane |
2 |
|
microdroplet |
2 |
|
microfluidics |
2 |
|
microstructured surface |
2 |
|
modality |
2 |
|
moving operator |
2 |
|
nanofluid |
2 |
|
nanolayer |
2 |
|
nanoparticles |
2 |
|
natural gas |
2 |
|
nature-inspired |
2 |
|
nonlinear acoustics |
2 |
|
office indoor particles |
2 |
|
orientations |
2 |
|
outbreak investigation |
2 |
|
particle adhesion |
2 |
|
particle concentration |
2 |
|
particle deposition enhancement |
2 |
|
particle number concentrations |
2 |
|
particle size distribution |
2 |
|
particles |
2 |
|
passive cooling |
2 |
|
pe microsphere |
2 |
|
peaking time |
2 |
|
performance |
2 |
|
pinning |
2 |
|
pitch-to-height ratio |
2 |
|
pm 10 |
2 |
|
porous residue |
2 |
|
public transport |
2 |
|
radiation control |
2 |
|
radon |
2 |
|
redox flow battery |
2 |
|
reflective coatings |
2 |
|
removal force |
2 |
|
residences |
2 |
|
residue pattern |
2 |
|
rice husk |
2 |
|
rna-seq |
2 |
|
savonius turbine |
2 |
|
school indoor particles |
2 |
|
sedimentation velocity |
2 |
|
semi-circular structured surface |
2 |
|
shape |
2 |
|
sidestream smoke |
2 |
|
smoke dispersion |
2 |
|
stability |
2 |
|
stress response |
2 |
|
sub-micron particle separation |
2 |
|
submicron particles |
2 |
|
superhydrophobic surface |
2 |
|
surface area |
2 |
|
surface area-based scheme |
2 |
|
surface rib array |
2 |
|
surface roughness |
2 |
|
suspensions |
2 |
|
thermal conductivity |
2 |
|
thermal diode |
2 |
|
thermal management |
2 |
|
thermal rectification |
2 |
|
thermal sensation |
2 |
|
thermo-optics |
2 |
|
thermochromic smart window |
2 |
|
thermophysical properties |
2 |
|
tiina reponen |
2 |
|
toluene |
2 |
|
transcriptome analysis |
2 |
|
transmission |
2 |
|
turbulence modeling |
2 |
|
underfloor ventilation |
2 |
|
vacuum cleaner |
2 |
|
ventilation |
2 |
|
vertical axis wind turbines |
2 |
|
vocs |
2 |
|
waste heat |
2 |
|
wetting |
2 |
|
work of adhesion |
2 |
|
zeolite 13x |
2 |
|
zeolite 4a |
2 |
|
zeta potential |
2 |
|
垂直軸風輪 |
2 |
|
實度 |
2 |
|
數值模擬 |
2 |
|
粒径分布 |
2 |
|
衰减趋势 |
2 |
|
超细颗粒物 |
2 |
|
释放速率 |
2 |
|
風能 |
2 |
|
absorption system |
1 |
|
activation energy |
1 |
|
adhesive force |
1 |
|
adsorbent synthesis |
1 |
|
adsorber design |
1 |
|
adsorption |
1 |
|
adsorption cooling |
1 |
|
adsorption cooling systems |
1 |
|
adsorption kinetics |
1 |
|
advanced thermal system |
1 |
|
aerodynamic diameter |
1 |
|
aerosol |
1 |
|
air change rate |
1 |
|
air curtain |
1 |
|
air distribution |
1 |
|
air quality |
1 |
|
air sampling |
1 |
|
air temperature |
1 |
|
air-exchange efficiency |
1 |
|
aircraft cabin |
1 |
|
aligned electrospun carbon fibers |
1 |
|
aligned fiber |
1 |
|
aligned structure |
1 |
|
aliphatic hydrocarbons |
1 |
|
all-ceramic nanofilms |
1 |
|
anti-icing |
1 |
|
area-contact model |
1 |
|
asymmetric electromagnetic transmission |
1 |
|
asymptotic analysis |
1 |
|
bacteriophage |
1 |
|
bacteriophages |
1 |
|
bacterium-laden expiratory aerosols |
1 |
|
biomass co-combustion |
1 |
|
breathing thermal manikin |
1 |
|
breathing zone |
1 |
|
brine ice |
1 |
|
builder |
1 |
|
building energy |
1 |
|
building material-related sources |
1 |
|
building retrofit |
1 |
|
building shell |
1 |
|
buoyancy flux |
1 |
|
burden of disease from particulate matter exposure |
1 |
|
burning characteristics |
1 |
|
calcium chloride |
1 |
|
capacitively coupled split-ring |
1 |
|
carbon dioxide |
1 |
|
cascade impactor |
1 |
|
ceiling-mixing ventilation |
1 |
|
ceiling-return airflow |
1 |
|
centrifugal |
1 |
|
cfd |
1 |
|
charge |
1 |
|
chemical mass balance |
1 |
|
chitosan |
1 |
|
cigarette smoldering |
1 |
|
cigarette smouldering |
1 |
|
co 2 |
1 |
|
co o 3 4 |
1 |
|
coal |
1 |
|
coalescing-jumping droplets |
1 |
|
cold region |
1 |
|
combustion behavior |
1 |
|
component |
1 |
|
composite adsorbent |
1 |
|
concentrating solar power |
1 |
|
concentration polarization |
1 |
|
condensation flow pattern |
1 |
|
condensation frosting |
1 |
|
condensation heat transfer |
1 |
|
condenser |
1 |
|
constant concentration dosing strategy |
1 |
|
consumption pattern |
1 |
|
contaminant removal effectiveness |
1 |
|
contaminants |
1 |
|
contamination |
1 |
|
control scheme |
1 |
|
cooking oil |
1 |
|
cool materials |
1 |
|
cop |
1 |
|
cost analysis |
1 |
|
cough |
1 |
|
coughing |
1 |
|
critical heat flux |
1 |
|
dehumidification |
1 |
|
deicing |
1 |
|
deposition rate |
1 |
|
deposition velocity |
1 |
|
design |
1 |
|
diffusion |
1 |
|
dilation |
1 |
|
diodicity |
1 |
|
discharge capacity |
1 |
|
dispersion |
1 |
|
domestic buildings |
1 |
|
domestic indoor particulate matter |
1 |
|
dose-response |
1 |
|
draught rate |
1 |
|
droplet nuclei |
1 |
|
droplet size and distribution |
1 |
|
dta |
1 |
|
dual-diameter carbon fiber |
1 |
|
e. coli |
1 |
|
edge effect |
1 |
|
effective r-value |
1 |
|
effective stagnant thermal conductivity |
1 |
|
electrical double layer |
1 |
|
electronic |
1 |
|
electronic expansion valve |
1 |
|
electroosmotic micro pump |
1 |
|
electrospun porous carbon fiber bundles |
1 |
|
electrostatic |
1 |
|
elemental species |
1 |
|
embedded adsorbent |
1 |
|
energy |
1 |
|
energy consumption |
1 |
|
energy conversion |
1 |
|
energy efficient glazing |
1 |
|
energy saving scheme |
1 |
|
enthalpy |
1 |
|
enthalpy of evaporation |
1 |
|
environmental |
1 |
|
environmental tobacco smoke |
1 |
|
ev high power electronics |
1 |
|
expanding structure |
1 |
|
experiment |
1 |
|
experimental investigation |
1 |
|
expiratory aerosols |
1 |
|
expiratory droplet |
1 |
|
expiratory droplets |
1 |
|
expiratory droplets and nuclei |
1 |
|
exposure |
1 |
|
extraoral scavenger |
1 |
|
fdtd optimization |
1 |
|
fine particles |
1 |
|
flame length |
1 |
|
flame retardant additive |
1 |
|
flame speed |
1 |
|
flame spread |
1 |
|
flammability limits |
1 |
|
flexible polyrethane foam |
1 |
|
floor based |
1 |
|
flow |
1 |
|
flow instability |
1 |
|
fly-ash |
1 |
|
fly-ash products |
1 |
|
foam |
1 |
|
fomite transmission |
1 |
|
forced convection |
1 |
|
forward smoldering combustion |
1 |
|
fracture |
1 |
|
free buoyancy flow |
1 |
|
freezing front |
1 |
|
freezing rate |
1 |
|
freezing wave propagation |
1 |
|
friction |
1 |
|
frost layer surface roughness |
1 |
|
frost surface roughness |
1 |
|
frosting characteristic |
1 |
|
frosting/defrosting operation |
1 |
|
ft-ir |
1 |
|
fuel-soaked porous bed |
1 |
|
fuel-soaked porous beds |
1 |
|
gas chromatography/mass spectrometry |
1 |
|
gaseous pollutants |
1 |
|
gelatin |
1 |
|
geometry |
1 |
|
gradient refractive index |
1 |
|
graphene |
1 |
|
graphene coated nickel foam |
1 |
|
green |
1 |
|
greenhouse gas |
1 |
|
guidance notes |
1 |
|
hafnium dioxide |
1 |
|
hand contact |
1 |
|
heat and mass recovery |
1 |
|
heat flux |
1 |
|
heat recovery |
1 |
|
heat transfer modelling |
1 |
|
heavy metal |
1 |
|
hele-shaw cell |
1 |
|
hierarchical structure |
1 |
|
high heat flux devices |
1 |
|
high-performance electrodes |
1 |
|
holey fiber |
1 |
|
hospital environment |
1 |
|
hospital wards |
1 |
|
hot-gas bypass defrosting |
1 |
|
hotel |
1 |
|
hvac |
1 |
|
hvac systems |
1 |
|
hybrid nanofluid spray |
1 |
|
ice |
1 |
|
ice thickness detection |
1 |
|
icephobic |
1 |
|
icing mechanism |
1 |
|
indirect contact transmission |
1 |
|
indoor air |
1 |
|
indoor air quality certification scheme |
1 |
|
indoor building material |
1 |
|
indoor dust level |
1 |
|
indoor radon |
1 |
|
indoor source apportionment |
1 |
|
infection control |
1 |
|
infectious disease control |
1 |
|
infectious disease transmission |
1 |
|
infectious diseases |
1 |
|
infectious respiratory diseases |
1 |
|
infiltration |
1 |
|
integrated optoelectronic circuits |
1 |
|
intermittent bubble layer |
1 |
|
interzonal migration |
1 |
|
ion-exchange |
1 |
|
isolation ward |
1 |
|
jumping |
1 |
|
jumping droplets |
1 |
|
jumping height |
1 |
|
kinetic |
1 |
|
kinetic parameter |
1 |
|
kitchens |
1 |
|
liquid fuel combustion |
1 |
|
lithium ion batteries |
1 |
|
manipulate bubble |
1 |
|
mass burning rate |
1 |
|
mass recovery |
1 |
|
mass transport |
1 |
|
maximum likelihood estimation |
1 |
|
mcm-41 |
1 |
|
measurement protocol |
1 |
|
mechanical ventilation |
1 |
|
mechanical ventilation and air-conditioning |
1 |
|
message delivery |
1 |
|
message storage |
1 |
|
metal foams |
1 |
|
metal ions |
1 |
|
metal-insulator transition |
1 |
|
methods for personal exposure assessment |
1 |
|
micro condenser |
1 |
|
micro-scale heat transfer |
1 |
|
microchannel |
1 |
|
microchannel heat exchanger |
1 |
|
microfabricated |
1 |
|
microwave resonance |
1 |
|
mie-scattering |
1 |
|
migration ratio |
1 |
|
modelling |
1 |
|
momentum flux |
1 |
|
monte carlo method |
1 |
|
ms |
1 |
|
multi-circuit outdoor coil |
1 |
|
multi-drug resistant tuberculosis |
1 |
|
multi-layer thin film |
1 |
|
multiphase model |
1 |
|
nano-confined catalytic oxidation |
1 |
|
nanoparticle concentration |
1 |
|
nanowire |
1 |
|
narrow channels |
1 |
|
natural ventilation |
1 |
|
ncco |
1 |
|
negative pressure |
1 |
|
neural network |
1 |
|
nickel foam |
1 |
|
nitrogen oxides |
1 |
|
no-spread diffusion flame |
1 |
|
non-office sector |
1 |
|
non-spread diffusion flames |
1 |
|
nonwoven |
1 |
|
number concentration |
1 |
|
numerical simulation |
1 |
|
occupant-related sources |
1 |
|
odor removal |
1 |
|
office buildings |
1 |
|
office sector |
1 |
|
operation sequence |
1 |
|
organic emissions |
1 |
|
osmosis |
1 |
|
outdoor sources |
1 |
|
ozonation |
1 |
|
pah |
1 |
|
palladium |
1 |
|
paraffin |
1 |
|
paraffin wax |
1 |
|
particle filter |
1 |
|
particle image velocimetry |
1 |
|
particulate matter |
1 |
|
particulate penetration coefficient |
1 |
|
particulates |
1 |
|
passive envelope efficiency |
1 |
|
passive radiative cooling |
1 |
|
passive thermal management |
1 |
|
payback period |
1 |
|
penetration |
1 |
|
permeability |
1 |
|
perovskite |
1 |
|
phase change |
1 |
|
phase change material |
1 |
|
phase change material (pcm) |
1 |
|
photonic radiative cooler |
1 |
|
photonic structure |
1 |
|
pitch distance |
1 |
|
plotonic integrated circuits |
1 |
|
pm and pm 2.5 10 |
1 |
|
pollutant removal |
1 |
|
polycyclic aromatic hydrocarbons |
1 |
|
pore size |
1 |
|
pre-heating phase |
1 |
|
predicted mean vote |
1 |
|
predicted percentage of dissatisfied |
1 |
|
pressure drop |
1 |
|
pump |
1 |
|
purging |
1 |
|
pva |
1 |
|
pxrd |
1 |
|
quantitative risk assessment |
1 |
|
radiative heat transfer |
1 |
|
radiative properties |
1 |
|
radon hazard |
1 |
|
raised floor |
1 |
|
rapid thermal annealing |
1 |
|
reactive oxygen species |
1 |
|
receptor modelling |
1 |
|
recycle |
1 |
|
refrigerative cooling |
1 |
|
respirable suspended matter |
1 |
|
respiratory infection |
1 |
|
retrospective analysis |
1 |
|
rice husks |
1 |
|
rock joint |
1 |
|
saharan silver ant |
1 |
|
saturated vapor pressure |
1 |
|
scalable |
1 |
|
school indoor particulate matter |
1 |
|
selective absorber |
1 |
|
selective emission |
1 |
|
self-assembly |
1 |
|
shape memory alloy |
1 |
|
shear behavior |
1 |
|
silica-gel |
1 |
|
silicon dioxide |
1 |
|
silk fibroin |
1 |
|
sink effect |
1 |
|
site measurement |
1 |
|
slug-bubbly flow |
1 |
|
smart window |
1 |
|
smoking room |
1 |
|
smoldering propagation |
1 |
|
solar-powered adsorption cooling system |
1 |
|
solar-thermal |
1 |
|
solar-thermal energy conversion |
1 |
|
solution process |
1 |
|
solution processing |
1 |
|
space cooling |
1 |
|
spatial infection pattern |
1 |
|
spatial pattern |
1 |
|
specific cooling power |
1 |
|
specific surface area |
1 |
|
spectrally selective absorber |
1 |
|
spin coating |
1 |
|
spray residue |
1 |
|
steady smoldering temperature |
1 |
|
stochastic modeling |
1 |
|
sulphur dioxides |
1 |
|
superhydrophobic |
1 |
|
supply jet |
1 |
|
surface area concentration |
1 |
|
survey |
1 |
|
synthesis |
1 |
|
techno-economic analysis |
1 |
|
temperature |
1 |
|
temperature stratification |
1 |
|
theoretical model |
1 |
|
thermal conductive adsorbent |
1 |
|
thermal energy storage |
1 |
|
thermal length scale |
1 |
|
thermal stability |
1 |
|
thermal switch |
1 |
|
thermochromatic materials |
1 |
|
thermochromic start window |
1 |
|
thermochromism |
1 |
|
thermoelectric cooling |
1 |
|
thermogravimetric analysis |
1 |
|
thin film |
1 |
|
total suspended matter |
1 |
|
total volatile organic compounds |
1 |
|
tracer gas |
1 |
|
tracer gas decay method |
1 |
|
transition ions |
1 |
|
transition metal |
1 |
|
transition metal ions |
1 |
|
transition metals |
1 |
|
transport property |
1 |
|
trapped air bubble |
1 |
|
tuberculosis |
1 |
|
turbulence models |
1 |
|
ufad |
1 |
|
ultrafine particle |
1 |
|
underfloor |
1 |
|
unidirectional airflow |
1 |
|
uniform distribution |
1 |
|
vanadium dioxide |
1 |
|
vanadium redox flow battery |
1 |
|
variable air volume (vav) |
1 |
|
ventilation efficiency |
1 |
|
ventilation rate |
1 |
|
ventilation systems |
1 |
|
vertical-cavity surface-emitting lasers |
1 |
|
virus-laden aerosols |
1 |
|
virus-laden expiratory aerosol |
1 |
|
voc |
1 |
|
water-lithium bromide |
1 |
|
wavelength division multiplexing |
1 |
|
wells-riley |
1 |
|
wettability pattern |
1 |
|
wind turbines blades |
1 |
|
zehner-schlunder's model |
1 |
|
zeolites |
1 |
|
zif-8 |
1 |
