The air flow in the human nasal cavity was simulated applying the Finite Element Method. This accompanies the experimental work of our medical partners who are investigating the functions of the specific geometry of this complex shaped flow channel. To consider the influence of the unique geometry of each different patients cavity we modelled the FE-grid on basis of x-ray computer tomograph (CT) images. Due to the complex structure of our application highly interactive visualization techniques were developed and utilized for the graphical analysis (post-processing) of the computed data. The integration of the simulation results into its context geomety, i.e. into the model of the patients head, was of main interest for a better understandin...
Passage of nasal airflow during breathing is crucial in achieving accurate diagnosis and optimal the...
With improves in computing hardware and CFD methods, it is possible to work with more complex geomet...
The prediction of detailed flow patterns in nasal cavities using computational fluid dynamics (CFD) ...
Methods of Computational Fluid Dynamics (CFD) nowadays play an important role in the production proc...
The functions of the nasal cavity are closely related to its structure. In this study the three-dime...
The lack of situed diagnostic tools providing insight into patient specific flow characteristics of ...
Computational fluid dynamics methods enable to numerically predict complex flows with the help of co...
During the past decades, numerous computational fluid dynamics (CFD) studies, constructed from CT or...
Patient specific 3D computational model of diseased human nasal cavity was developed for pre and pos...
The immense increase of computational power in the past decades led to an evolution of numerical sim...
The intranasal airflow pattern is closely related to the size and shape of the nasal cavity. Turbule...
Methods of Computational Fluid Dynamics (CFD) nowadays play an important role in the production proc...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
The intranasal airflow pattern is closely related to the size and shape of the nasal cavity. Turbule...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
Passage of nasal airflow during breathing is crucial in achieving accurate diagnosis and optimal the...
With improves in computing hardware and CFD methods, it is possible to work with more complex geomet...
The prediction of detailed flow patterns in nasal cavities using computational fluid dynamics (CFD) ...
Methods of Computational Fluid Dynamics (CFD) nowadays play an important role in the production proc...
The functions of the nasal cavity are closely related to its structure. In this study the three-dime...
The lack of situed diagnostic tools providing insight into patient specific flow characteristics of ...
Computational fluid dynamics methods enable to numerically predict complex flows with the help of co...
During the past decades, numerous computational fluid dynamics (CFD) studies, constructed from CT or...
Patient specific 3D computational model of diseased human nasal cavity was developed for pre and pos...
The immense increase of computational power in the past decades led to an evolution of numerical sim...
The intranasal airflow pattern is closely related to the size and shape of the nasal cavity. Turbule...
Methods of Computational Fluid Dynamics (CFD) nowadays play an important role in the production proc...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
The intranasal airflow pattern is closely related to the size and shape of the nasal cavity. Turbule...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
Passage of nasal airflow during breathing is crucial in achieving accurate diagnosis and optimal the...
With improves in computing hardware and CFD methods, it is possible to work with more complex geomet...
The prediction of detailed flow patterns in nasal cavities using computational fluid dynamics (CFD) ...