AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING

Ahmed Aboelezz; Mostafa Hassanalian; Pedram Roghanchi

doi:10.1115/FEDSM2024-121354

AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING

Ahmed Aboelezz, Mostafa Hassanalian, Pedram Roghanchi

Mining Engineering

Producción científica: Conference contribution › revisión exhaustiva

Resumen

This study investigates the impact of simplified lung airway models on the deposition of dust particles. It uses Computational Fluid Dynamics and wind tunnel testing to assess the accuracy and reliability of these models in predicting dust behavior in the respiratory system, particularly in coal mining. Through CFD simulations, we analyzed it in a simplified lung model. These results were compared with those from more complex models. The simulations focused on key factors influencing particle deposition. Wind tunnel experiments were conducted to validate the simulation results and observe dust behavior. These experiments provided insights into the limitations of simplified lung models in capturing the deposition of fine dust particles. The study found significant differences in air velocities between simplified and complex lung models, leading to potential underestimation or overestimation of dust deposition. This research enhances understanding of dust particle deposition in the lungs, contributing to respiratory health and safety. It highlights the need for more sophisticated modeling techniques in occupational health studies and improves safety standards in industries with dust exposure.

Idioma original	English
Título de la publicación alojada	Computational Fluid Dynamics (CFDTC); Micro and Nano Fluid Dynamics (MNFDTC); Flow Visualization
ISBN (versión digital)	9780791888131
DOI	https://doi.org/10.1115/FEDSM2024-121354
Estado	Published - 2024
Evento	ASME 2024 Fluids Engineering Division Summer Meeting, FEDSM 2024 collocated with the ASME 2024 Heat Transfer Summer Conference and the ASME 2024 18th International Conference on Energy Sustainability - Anaheim, United States Duración: jul 15 2024 → jul 17 2024

Serie de la publicación

Nombre	American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FEDSM
Volumen	2
ISSN (versión impresa)	0888-8116

Conference

Conference	ASME 2024 Fluids Engineering Division Summer Meeting, FEDSM 2024 collocated with the ASME 2024 Heat Transfer Summer Conference and the ASME 2024 18th International Conference on Energy Sustainability
País/Territorio	United States
Ciudad	Anaheim
Período	7/15/24 → 7/17/24

Nota bibliográfica

Publisher Copyright:
Copyright © 2024 by ASME.

Financiación

This research is funded by the National Institute for Occupational Safety and Health (NIOSH) [Contract #: 75D30119C06390]. The views, opinions, and recommendations expressed herein are solely those of the authors and do not imply any endorsement by NIOSH.

Financiadores	Número del financiador
National Institute for Occupational Safety and Health	75D30119C06390
National Institute for Occupational Safety and Health

ASJC Scopus subject areas

Mechanical Engineering

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10.1115/FEDSM2024-121354

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Aboelezz, A., Hassanalian, M., & Roghanchi, P. (2024). AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING. En Computational Fluid Dynamics (CFDTC); Micro and Nano Fluid Dynamics (MNFDTC); Flow Visualization Artículo V002T05A001 (American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FEDSM; Vol. 2). https://doi.org/10.1115/FEDSM2024-121354

Aboelezz, Ahmed ; Hassanalian, Mostafa ; Roghanchi, Pedram. / AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING. Computational Fluid Dynamics (CFDTC); Micro and Nano Fluid Dynamics (MNFDTC); Flow Visualization. 2024. (American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FEDSM).

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title = "AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING",

abstract = "This study investigates the impact of simplified lung airway models on the deposition of dust particles. It uses Computational Fluid Dynamics and wind tunnel testing to assess the accuracy and reliability of these models in predicting dust behavior in the respiratory system, particularly in coal mining. Through CFD simulations, we analyzed it in a simplified lung model. These results were compared with those from more complex models. The simulations focused on key factors influencing particle deposition. Wind tunnel experiments were conducted to validate the simulation results and observe dust behavior. These experiments provided insights into the limitations of simplified lung models in capturing the deposition of fine dust particles. The study found significant differences in air velocities between simplified and complex lung models, leading to potential underestimation or overestimation of dust deposition. This research enhances understanding of dust particle deposition in the lungs, contributing to respiratory health and safety. It highlights the need for more sophisticated modeling techniques in occupational health studies and improves safety standards in industries with dust exposure.",

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author = "Ahmed Aboelezz and Mostafa Hassanalian and Pedram Roghanchi",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 by ASME.; ASME 2024 Fluids Engineering Division Summer Meeting, FEDSM 2024 collocated with the ASME 2024 Heat Transfer Summer Conference and the ASME 2024 18th International Conference on Energy Sustainability ; Conference date: 15-07-2024 Through 17-07-2024",

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Aboelezz, A, Hassanalian, M & Roghanchi, P 2024, AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING. En Computational Fluid Dynamics (CFDTC); Micro and Nano Fluid Dynamics (MNFDTC); Flow Visualization., V002T05A001, American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FEDSM, vol. 2, ASME 2024 Fluids Engineering Division Summer Meeting, FEDSM 2024 collocated with the ASME 2024 Heat Transfer Summer Conference and the ASME 2024 18th International Conference on Energy Sustainability, Anaheim, United States, 7/15/24. https://doi.org/10.1115/FEDSM2024-121354

AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING. / Aboelezz, Ahmed; Hassanalian, Mostafa; Roghanchi, Pedram.
Computational Fluid Dynamics (CFDTC); Micro and Nano Fluid Dynamics (MNFDTC); Flow Visualization. 2024. V002T05A001 (American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FEDSM; Vol. 2).

Producción científica: Conference contribution › revisión exhaustiva

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AU - Aboelezz, Ahmed

AU - Hassanalian, Mostafa

AU - Roghanchi, Pedram

PY - 2024

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N2 - This study investigates the impact of simplified lung airway models on the deposition of dust particles. It uses Computational Fluid Dynamics and wind tunnel testing to assess the accuracy and reliability of these models in predicting dust behavior in the respiratory system, particularly in coal mining. Through CFD simulations, we analyzed it in a simplified lung model. These results were compared with those from more complex models. The simulations focused on key factors influencing particle deposition. Wind tunnel experiments were conducted to validate the simulation results and observe dust behavior. These experiments provided insights into the limitations of simplified lung models in capturing the deposition of fine dust particles. The study found significant differences in air velocities between simplified and complex lung models, leading to potential underestimation or overestimation of dust deposition. This research enhances understanding of dust particle deposition in the lungs, contributing to respiratory health and safety. It highlights the need for more sophisticated modeling techniques in occupational health studies and improves safety standards in industries with dust exposure.

AB - This study investigates the impact of simplified lung airway models on the deposition of dust particles. It uses Computational Fluid Dynamics and wind tunnel testing to assess the accuracy and reliability of these models in predicting dust behavior in the respiratory system, particularly in coal mining. Through CFD simulations, we analyzed it in a simplified lung model. These results were compared with those from more complex models. The simulations focused on key factors influencing particle deposition. Wind tunnel experiments were conducted to validate the simulation results and observe dust behavior. These experiments provided insights into the limitations of simplified lung models in capturing the deposition of fine dust particles. The study found significant differences in air velocities between simplified and complex lung models, leading to potential underestimation or overestimation of dust deposition. This research enhances understanding of dust particle deposition in the lungs, contributing to respiratory health and safety. It highlights the need for more sophisticated modeling techniques in occupational health studies and improves safety standards in industries with dust exposure.

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KW - Lung Airway Models

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KW - Respirable Dust Deposition

KW - Wind Tunnel Testing

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Aboelezz A, Hassanalian M, Roghanchi P. AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING. En Computational Fluid Dynamics (CFDTC); Micro and Nano Fluid Dynamics (MNFDTC); Flow Visualization. 2024. V002T05A001. (American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FEDSM). doi: 10.1115/FEDSM2024-121354

AN INVESTIGATION INTO THE IMPACT OF SIMPLIFIED LUNG AIRWAY MODELS ON RESPIRABLE DUST PARTICLE DEPOSITION USING CFD AND WIND TUNNEL TESTING

Resumen

Serie de la publicación

Conference

Nota bibliográfica

Financiación

ASJC Scopus subject areas

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