Experimental quantification of the head loss coefficient K for fittings and semi-industrial pipe cross section solid concentration profile in pneumatic conveying of polypropylene pellets in dilute phase

Moraes, Marcela Barbosa de; Torneiros, Daniel Lopes Muiños; Rosa, Vitor da Silva; Higa, Jordan Souza; Castro, Yago R. de; Santos, Aldo Ramos; Coelho, Nelize Maria de Almeida; Júnior, Deovaldo de Moraes

doi:10.1016/j.powtec.2017.01.039

Cited by 19 publications

(21 citation statements)

References 10 publications

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“…K = 4,97398 v (-0,538827) (2) Sendo K o fator multiplicador da carga cinética (adimensional) e v a velocidade do ar em m/s para vazões de poliestireno de 114,84 até 325,87 kg/h. Os valores de K obtidos com o polipropileno por Moraes et al (2017) foram, para as mesmas condições experimentais, inferiores ao do presente estudo com o poliestireno em função da geometria das partículas.…”

Section: Resultsunclassified

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Quantificação Experimental Do Coeficiente K Em Curva De 90° Em Unidade Semi-Industrial De Transporte Pneumático De Poliestireno

Ribeiro¹,

Moraes²,

Bueno³

et al. 2019

Blucher Chemical Engineering Proceedings

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Section: Resultsunclassified

“…As vazões de poliestireno da presente pesquisa foram as mesmas fixadas por Moraes, et al (2017) para o polipropileno (esferas com diâmetro aproximado de 3 mm) ou seja: 114,84; 219,69 e 325,87 kg/h. Quantificou-se através de um anemômetro as velocidades no duto de sucção do ventilador.…”

Section: Processo Operacionalunclassified

Quantificação Experimental Do Coeficiente K Em Curva De 90° Em Unidade Semi-Industrial De Transporte Pneumático De Poliestireno

Ribeiro¹,

Moraes²,

Bueno³

et al. 2019

Blucher Chemical Engineering Proceedings

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“…The use of empirical procedures [7,9,16] cannot provide a complete calculation of the installations, including changes in the characteristics of a two-component flow under different installation's modes of operation [17][18][19]. Using the most general theoretical description of the pneumatic conveying process mentioned in papers [1,8], objective difficulties associated with a complicated system of equations [4,5] in features of the control system with controlled feedback.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Practical aspects in modeling the air conveying modes of small–piece food products

Kryvoplias-Volodina¹,

Гавва²,

Yakymchuk³

et al. 2020

EEJET

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ical models of pneumatic conveying of food products are formed on the basis of incremental material parameters of a pneumatic pipeline [1-3]. Additional technical challenges arise when calculating a modern pneumatic conveying pipeline for small-piece food products. It is necessary to introduce elements of monitoring drives, as well as the theory of their calculation to the generalized mathematical model of a pneumatic pipeline [2-5].

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“…The different formulation for different gas volume fraction as in equations (5)(6)(7)(8) follows the suggestion of Gidaspow [24]. The turbulent dispersion force , in equation 2is modelled with the FAD model [30] that is included in the software, according to equations (9-10)…”

Section: Governing Equationsmentioning

confidence: 99%

“…Due to their complexities, experimental studies are still being conducted to study pneumatic conveying processes. Some examples will include work by Khan et al [5] on the pick-up velocity of particles and de Moraes et al [6] on head loss coefficient for pipe fittings, both of which deal with properties fundamental to pneumatic conveying processes. While experimental studies form a significant portion of pneumatic conveying investigations, the number of numerical simulation studies are increasing as well.…”

Section: Introductionmentioning

confidence: 99%

On the application of an Eulerian granular model towards dilute phase pneumatic conveying

2018

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The present study considered the application of a multiphase model with Eulerian approach for the solids phase in dilute-phase conveying, where the results are compared against previously published experimental results based on 42µm nominal diameter glass particles. In particular, the Favre-Averaged Drag turbulent dispersion model is studied where it is found to have greater effects on the particle concentration distribution as compared to the gas phase velocity. While certain discrepancies are observed between simulations and published experimental data, the flow characteristics are adequately captured after addressing the underlying cause of inaccuracies. Inaccuracies in the particle concentration distributions along a vertical pipe section result from the difficulty in capturing the transitional zone where the particle rope starts to disperse. On the other hand, particle diameter variations underpin the mismatches along a horizontal pipe section. Interestingly, increasing particle diameter leads to the successful capturing of the particle concentration distribution along the horizontal pipe section. The accuracy of employing an Eulerian approach for solids phase is demonstrated, provided that the particle diameter is accounted for.

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Experimental quantification of the head loss coefficient K for fittings and semi-industrial pipe cross section solid concentration profile in pneumatic conveying of polypropylene pellets in dilute phase

Cited by 19 publications

References 10 publications

Quantificação Experimental Do Coeficiente K Em Curva De 90° Em Unidade Semi-Industrial De Transporte Pneumático De Poliestireno

Quantificação Experimental Do Coeficiente K Em Curva De 90° Em Unidade Semi-Industrial De Transporte Pneumático De Poliestireno

Practical aspects in modeling the air conveying modes of small–piece food products

On the application of an Eulerian granular model towards dilute phase pneumatic conveying

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