Influence of pre-ignition pressure rise on safety characteristics of dusts and hybrid mixtures

The present article addresses the peristaltic flow of a Jeffery fluid over an inclined axisymmetric porous tube with varying viscosity and thermal conductivity. Velocity slip and convective boundary conditions are considered. Resulting governing equations are solved using long wavelength and small Reynolds number approximations. The closed-form solutions are obtained for velocity, streamline, pressure gradient, temperature, pressure rise, and frictional force. The MATLAB numerical simulations are utilized to compute pressure rise and frictional force. The impacts of various physical parameters in the interims for time-averaged flow rate with pressure rise and is examined. The consequences of sinusoidal, multi-sinusoidal, triangular, trapezoidal, and square waveforms on physiological parameters are analyzed and discussed through graphs. The analysis reveals that the presence of variable viscosity helps in controlling the pumping performance of the fluid.

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Corn Hybrid Mixtures in a Southern Environment 1

Crop Science ◽

10.2135/cropsci1977.0011183x001700040042x ◽

1977 ◽

Vol 17 (4) ◽

pp. 645-646 ◽

Cited By ~ 3

Author(s):

D. L. Thompson

Keyword(s):

Hybrid Mixtures ◽

Corn Hybrid

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Ciliary Flow of Casson Nanofluid with the Influence of MHD having Carbon Nanotubes

Current Nanoscience ◽

10.2174/1573413716999201015090335 ◽

2020 ◽

Vol 16 ◽

Author(s):

Adel Alblawi ◽

Saba Keyani ◽

S. Nadeem ◽

Alibek Issakhov ◽

Ibrahim M. Alarifi

Keyword(s):

Carbon Nanotubes ◽

Velocity Profile ◽

Pressure Gradient ◽

Volume Fraction ◽

Solid Volume Fraction ◽

Pressure Rise ◽

Shear Stresses ◽

Left Wall ◽

Coupled Equations ◽

The Right

Objective: In this paper, we consider a model that describes the ciliary beating in the form of metachronal waves along with the effects of Magnetohydrodynamic fluid over a curved channel with slip effects. This work aims at evaluating the effect of Magnetohydrodynamic (MHD) on the steady two dimensional (2-D) mixed convection flow induced in carbon nanotubes. The work is done for both the single wall nanotube and multiple wall nanotube. The right wall and the left wall possess a metachronal wave that is travelling along the outer boundary of the channel. Methods: The wavelength is considered as very large for cilia induced MHD flow. The governing linear coupled equations are simplified by considering the approximations of long wavelength and small Reynolds number. Exact solutions are obtained for temperature and velocity profile. The analytical expressions for the pressure gradient and wall shear stresses are obtained. Term for pressure rise is obtained by applying Numerical integration method. Results: Numerical results of velocity profile are mentioned in a table form, for various values of solid volume fraction, curvature, Hartmann number [M] and Casson fluid parameter [ζ]. Final section of this paper is devoted to discussing the graphical results of temperature, pressure gradient, pressure rise, shear stresses and stream functions. Conclusion: Velocity profile near the right wall of the channel decreases when we add nanoparticles into our base fluid, whereas an opposite behaviour is depicted near the left wall due to ciliated tips whereas the temperature is an increasing function of B and ߛ and decreasing function of ߶.

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Industrial Dust Explosions. A Brief Review

Applied Sciences ◽

10.3390/app11041669 ◽

2021 ◽

Vol 11 (4) ◽

pp. 1669 ◽

Cited By ~ 1

Author(s):

Rolf K. Eckhoff ◽

Gang Li

Keyword(s):

Case History ◽

Final Section ◽

Dust Explosion ◽

Research Issues ◽

Industrial Dust ◽

Dust Clouds ◽

Factors Influencing ◽

History Of ◽

Dust Explosions ◽

Hybrid Mixtures

This paper first addresses the question: what is a dust explosion? Afterwards, some specific issues are briefly reviewed: materials that can give dust explosions, factors influencing ignitability and explosibility of dust clouds, the combustion of dust clouds in air, ignition sources that can initiate dust explosions, primary and secondary dust explosions, dust flash fires, explosions of “hybrid mixtures”, and detonation of dust clouds. Subsequently, measures for dust explosion prevention and mitigation are reviewed. The next section presents the case history of an industrial dust explosion catastrophe in China in 2014. In the final section, a brief review is given of some current research issues that are related to the prevention and mitigation of dust explosions. There is a constant need for further research and development in all the areas elucidated in the paper.

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Influence of pre-ignition pressure rise on safety characteristics of dusts and hybrid mixtures

Lipofundin®-Induced Intracranial Pressure Rise after Severe Traumatic Brain Injury - A Case Report

Effect of apraclonidine hydrochloride on acute introacular pressure rise after argon laser iridotomy

Fundamental Examination of Numerical Simulation Model for Pressure Rise due to Underwater Arc

Dependence of Internal Pressure-rise due to Arc on Current Waveform and Ignition Position

Determination of the maximum explosion pressure and the maximum rate of pressure rise of gases and vapours

Determination of maximum explosion pressure and the maximum rate of pressure rise of gases and vapours

Peristaltic flow of a Jeffery fluid over a porous conduit in the presence of variable liquid properties and convective boundary conditions

Corn Hybrid Mixtures in a Southern Environment 1

Ciliary Flow of Casson Nanofluid with the Influence of MHD having Carbon Nanotubes

Industrial Dust Explosions. A Brief Review

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