Response of a viscoelastic layer (mucus) to turbulent airflow in a rigid tube

Purpose Tracheostomy patients face many adversities including loss of phonation and essential airway functions including air filtering, warming, and humidification. Heat and moisture exchangers (HMEs) facilitate humidification and filtering of inspired air. The Shikani HME (S-HME) is a novel turbulent airflow HME that may be used in-line with the Shikani Speaking Valve (SSV), allowing for uniquely preserved phonation during humidification. The aims of this study were to (a) compare the airflow resistance ( R airflow ) and humidification efficiency of the S-HME and the Mallinckrodt Tracheolife II tracheostomy HME (M-HME) when dry (time zero) and wet (after 24 hr) and (b) determine if in-line application of the S-HME with a tracheostomy speaking valve significantly increases R airflow over a tracheostomy speaking valve alone (whether SSV or Passy Muir Valve [PMV]). Method A prospective observational ex vivo study was conducted using a pneumotachometer lung simulation unit to measure airflow ( Q ) amplitude and R airflow , as indicated by a pressure drop ( P Drop ) across the device (S-HME, M-HME, SSV + S-HME, and PMV). Additionally, P Drop was studied for the S-HME and M-HME when dry at time zero (T 0 ) and after 24 hr of moisture testing (T 24 ) at Q of 0.5, 1, and 1.5 L/s. Results R airflow was significantly less for the S-HME than M-HME (T 0 and T 24 ). R airflow of the SSV + S-HME in series did not significant increase R airflow over the SSV or PMV alone. Moisture loss efficiency trended toward greater efficiency for the S-HME; however, the difference was not statistically significant. Conclusions The turbulent flow S-HME provides heat and moisture exchange with similar or greater efficacy than the widely used laminar airflow M-HME, but with significantly lower resistance. The S-HME also allows the innovative advantage of in-line use with the SSV, hence allowing concurrent humidification and phonation during application, without having to manipulate either device.

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Piezoelectricity induced by turbulent airflow for clean and renewable electric power generation

10.26678/abcm.cobem2017.cob17-0952 ◽

2017 ◽

Author(s):

Marcelo Mendes Vieira ◽

Aguinaldo Soares de Oliveira ◽

Rômulo Pires

Keyword(s):

Power Generation ◽

Electric Power ◽

Electric Power Generation ◽

Turbulent Airflow

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The Indentation Rolling Resistance in Belt Conveyors: A Model for the Viscoelastic Friction

Lubricants ◽

10.3390/lubricants7070058 ◽

2019 ◽

Vol 7 (7) ◽

pp. 58 ◽

Cited By ~ 1

Author(s):

Nicola Menga ◽

Francesco Bottiglione ◽

Giuseppe Carbone

Keyword(s):

Contact Problem ◽

Finite Thickness ◽

Numerical Procedure ◽

Contact Problems ◽

Accurate Solution ◽

Rolling Contact ◽

Viscoelastic Layer ◽

Force Coefficient ◽

Belt Conveyors ◽

Energy Dissipated

In this paper, we study the steady-state rolling contact of a linear viscoelastic layer of finite thickness and a rigid indenter made of a periodic array of equally spaced rigid cylinders. The viscoelastic contact model is derived by means of Green’s function approach, which allows solving the contact problem with the sliding velocity as a control parameter. The contact problem is solved by means of an accurate numerical procedure developed for general two-dimensional contact geometries. The effect of geometrical quantities (layer thickness, cylinders radii, and cylinders spacing), material properties (viscoelastic moduli, relaxation time) and operative conditions (load, velocity) are all investigated. Physical quantities typical of contact problems (contact areas, deformed profiles, etc.) are calculated and discussed. Special emphasis is dedicated to the viscoelastic friction force coefficient and to the energy dissipated per unit time. The discussion is focused on the role played by the deformation localized at the contact spots and the one in the bulk of the thin layer, due to layer bending. The model is proposed as an accurate solution for engineering applications such as belt conveyors, in which the energy dissipated on the rolling contact of idle rollers can, in some cases, be by far the most important contribution to their energy consumption.

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A numerical investigation of three-dimensional turbulent airflow around WFCAM at the UK Infrared Telescope

10.1117/12.550702 ◽

2004 ◽

Cited By ~ 3

Author(s):

Tomas Chylek ◽

Timothy C. Chuter ◽

Dean J. Shutt ◽

Matthew M. Doyle

Keyword(s):

Numerical Investigation ◽

Three Dimensional ◽

Infrared Telescope ◽

Turbulent Airflow ◽

The Uk

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Numerical simulation of turbulent airflow and heat transfer through a rectangular channel along with two trapezoidal baffle plates: Comparison between plane and trapezoidal shape baffles

10.1063/5.0049898 ◽

2021 ◽

Author(s):

Sandip Saha

Keyword(s):

Heat Transfer ◽

Numerical Simulation ◽

Rectangular Channel ◽

Trapezoidal Shape ◽

Turbulent Airflow

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Experiments, numerical models and optimization of carbon-epoxy plates damped by a frequency-dependent interleaved viscoelastic layer

Mechanics of Advanced Materials and Structures ◽

10.1080/15376494.2021.1882626 ◽

2021 ◽

pp. 1-19

Author(s):

R. Mateu Pastor ◽

H. Le Sourne ◽

E. Le Gal La Salle ◽

P. Cartraud

Keyword(s):

Numerical Models ◽

Viscoelastic Layer ◽

Frequency Dependent

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Does the Laminar Airflow System Affect the Development of Perioperative Hypothermia? A Randomized Clinical Trial

HERD Health Environments Research & Design Journal ◽

10.1177/1937586720985859 ◽

2021 ◽

pp. 193758672098585

Author(s):

Recai Dagli ◽

Fatma Çelik ◽

Hüseyin Özden ◽

Serdar Şahin

Keyword(s):

Clinical Trial ◽

Laparoscopic Cholecystectomy ◽

Tympanic Membrane ◽

Randomized Study ◽

Hvac Systems ◽

Anesthesia Induction ◽

Temperature Changes ◽

Perioperative Hypothermia ◽

Surgical Evaluation ◽

Turbulent Airflow

Objectives: We aimed to compare tympanic membrane temperature changes and the incidence of inadvertent perioperative hypothermia (IPH) in patients undergoing laparoscopic cholecystectomy under general anesthesia in laminar airflow systems (LAS-OR) and conventional turbulent airflow systems (CAS-OR). Background: Different heating, ventilation, and air-conditioning (HVAC) systems are used in the operating room (OR), such as LAS and CAS. Laminar airflow is directed directly to the patient in LAS-OR. Does laminar airflow in ORs cause faster heat loss by convection? Methods: This is a prospective, randomized study. We divided 200 patients with simple randomization (1:1), as group LAS and group CAS, and took the patients into the LAS-OR or CAS-OR for the operation. Clinical trial number: IRCT20180324039145N3. The tympanic membrane temperatures of patients were measured (°C) before anesthesia induction ( T 0) and then every 15 min during surgery ( Tn). Changes (Δ n) between T 0 and Tn were measured. Results: In the first 30 min, there was a temperature decrease of approximately 0.8 °C (1.44 °F) in both groups. Temperature decreases at 45 min were higher in group LAS than in group CAS but not statistically significant, Δ45, respectively, 0.89 (95% confidence interval [CI] [0.77, 1.02]) versus 0.77 (95% CI [0.69, 0.84]; p = .09). IPH occurred in a total of 60.9% (112 of 184) of patients in the entire surgical evaluation period in group LAS and group CAS (58.9% vs. 62.8%, p = . 59). Conclusions: IPH is seen frequently in both HVAC systems. Clinically, the advantage of HVAC systems relative to each other has not been demonstrated during laparoscopic cholecystectomy.

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