Add to ORKGThree domains can be distinguished for particle transport onto human airway surfaces. Thermodynamic domain: domain: Particles are transported by diffusion. Deposition decreases with particle diameter, is independent of particle density, increases with inspiration time and should be independent of flow rate. Intermediate domain: Particles are transported by diffusion and gravitational sedimentation. Deposition is slightly dependent on particle diameter, particle density and flow rate and increases with inspiration time. Since particles are effectively collected by inertial impaction in the nose, this domain disappears for nose-breathing. Aerodynamic domain: Particles are transported by gravitational sedimentation and by inertial impaction. D...
The trajectory and deposition efficiency of micron-sized (1–5 µm) particles, inhaled into the pulmon...
AbstractThe behavior of bioaerosol particles with various size and shape in the human respiratory tr...
Regional deposition of inhaled aerosols is essential for assessing health risks from toxic exposure....
An aerosol with particles aerodynamically larger than 0.5 μm inspired through the nose is partial...
In this dissertation, the deposition of particles in human airway models is studied. The dissertatio...
Particle transport and deposition (TD) are influenced by lung structure, breathing patterns, and par...
While filtration occurs in a fixed system at a steady flow rate, respiratory deposition occurs in a ...
For respiratory health risk assessment, it is essential to evaluate the transportation and depositio...
In most inhaled drug delivery applications, aerosol deposition in the upper airways occurs primarily...
The behavior of bioaerosol particles with various size and shape in the human respiratory tract was ...
While the benefits and possibilities of nanotechnology have received considerable attention, the a...
Airborne particulate matter has caused growing public concerns with regard to their effect on human ...
Effective management of asthma is dependent on achieving adequate delivery of the drugs into the lun...
This paper summarises current studies related to numerical gas-particle flows in the human nasal cav...
The understanding of complex inhalation and transport processes of pollutant particles through the h...
The trajectory and deposition efficiency of micron-sized (1–5 µm) particles, inhaled into the pulmon...
AbstractThe behavior of bioaerosol particles with various size and shape in the human respiratory tr...
Regional deposition of inhaled aerosols is essential for assessing health risks from toxic exposure....
An aerosol with particles aerodynamically larger than 0.5 μm inspired through the nose is partial...
In this dissertation, the deposition of particles in human airway models is studied. The dissertatio...
Particle transport and deposition (TD) are influenced by lung structure, breathing patterns, and par...
While filtration occurs in a fixed system at a steady flow rate, respiratory deposition occurs in a ...
For respiratory health risk assessment, it is essential to evaluate the transportation and depositio...
In most inhaled drug delivery applications, aerosol deposition in the upper airways occurs primarily...
The behavior of bioaerosol particles with various size and shape in the human respiratory tract was ...
While the benefits and possibilities of nanotechnology have received considerable attention, the a...
Airborne particulate matter has caused growing public concerns with regard to their effect on human ...
Effective management of asthma is dependent on achieving adequate delivery of the drugs into the lun...
This paper summarises current studies related to numerical gas-particle flows in the human nasal cav...
The understanding of complex inhalation and transport processes of pollutant particles through the h...
The trajectory and deposition efficiency of micron-sized (1–5 µm) particles, inhaled into the pulmon...
AbstractThe behavior of bioaerosol particles with various size and shape in the human respiratory tr...
Regional deposition of inhaled aerosols is essential for assessing health risks from toxic exposure....