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Effect of using insert on the flow pressure in cylindrical silo

Hala Hammadeh

Hala Hammadeh

Faculty of Engineering, Middle East UniversityAmman, Jordan
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Hammadeh, Hala
, 
Farzat Askifi

Farzat Askifi

Faculty of Civil Engineering, Damascus UniversityDamascus, Syria
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Askifi, Farzat
, 
Andrzej Ubysz

Andrzej Ubysz

Faculty of Civil Engineering, Wroclaw University of Science and TechnologyWroclaw, Poland
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Ubysz, Andrzej
, 
Marek Maj

Marek Maj

Faculty of Civil Engineering, Wroclaw University of Science and TechnologyWroclaw, Poland
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Maj, Marek
 e 
Amjad Zeno

Amjad Zeno

Faculty of Engineering, Middle East UniversityAmman, Jordan
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Zeno, Amjad
  
30 dic 2019
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Categoria dell'articolo: Research Articles
Pubblicato online: 30 dic 2019
Pagine: 177 - 183
Ricevuto: 12 nov 2018
Accettato: 21 lug 2019
DOI: https://doi.org/10.2478/sgem-2019-0022
Parole chiave
© 2019 Hala Hammadeh et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Figure 1

Silo dimension.
Silo dimension.

Figure 2

The insert.
The insert.

Figure 3

The used granular material.
The used granular material.

Figure 4

The Insert positions and the levels of the pressure transducers.
The Insert positions and the levels of the pressure transducers.

Figure 5

The used pressure transducer.
The used pressure transducer.

Figure 6

The pressure distribution on the silo wall and hopper without using Insert.
The pressure distribution on the silo wall and hopper without using Insert.

Figure 7

The pressure distribution on the silo wall and hopper with Insert at position h1/h2= 0.71.
The pressure distribution on the silo wall and hopper with Insert at position h1/h2= 0.71.

Figure 8

The pressure distribution on the silo wall and hopper with Insert at position h1/h2= 0.82.
The pressure distribution on the silo wall and hopper with Insert at position h1/h2= 0.82.

Figure 9

The pressure distribution on the silo wall and hopper with Insert at position h1/h2= 1.
The pressure distribution on the silo wall and hopper with Insert at position h1/h2= 1.

Figure 10

The pressure distribution on the silo wall and hopper with Insert at position h1/h2=1.12.
The pressure distribution on the silo wall and hopper with Insert at position h1/h2=1.12.

Figure 11

The pressure distribution on the silo wall and hopper without using Insert, by German Code DIN 1055[15], by Thiemer equation [13], and Janssen.
The pressure distribution on the silo wall and hopper without using Insert, by German Code DIN 1055[15], by Thiemer equation [13], and Janssen.
Lingua:
Inglese
Frequenza di pubblicazione:
4 volte all'anno
Argomenti della rivista:
Geoscienze, Geoscienze, altro, Scienze materiali, Compositi, Materiali porovati, Fisica, Meccanica e dinamica dei fluidi
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