Asian Science Citation Index is committed to provide an authoritative, trusted and significant information by the coverage of the most important and influential journals to meet the needs of the global scientific community.  
ASCI Database
308-Lasani Town,
Sargodha Road,
Faisalabad, Pakistan
Fax: +92-41-8815544
Contact Via Web
Suggest a Journal
 
Articles by Hossein Mobli
Total Records ( 2 ) for Hossein Mobli
  Hamzeh Fathollahzadeh , Hossein Mobli , Ali Jafari , Shahin Rafiee and Ali Mohammadi
  Physical properties of apricot kernel are necessary for the design of equipments for processing, transportation, sorting and separating. In this paper the physical properties of apricot kernel have been evaluated as a function of moisture content varying from 3.19% to 17.46% (w.b.). With increasing in moisture content, kernel length, width, thickness, Geometric mean diameter and surface area increased; the sphericity varying from 59.79 % to 62.21%; mass, thousand grain mass, volume and true density increase from 0.380 to 0.448 (gr), 381.6 to 447.9 (gr), 0.442 to 0.463 (cm3) and 882.588 to 983.383 (kg/m3) respectively; The porosity and bulk density decreased from 52.68% to 51.33% and 471.6 to 406.8 (kg/m3) respectively; the coefficient of static friction on all surfaces increased as the moisture content increased; and the rupture strength in weakest direction (through length) decrease from 23.443 to 16.620 (N).
  Hojat Ahmadi , Hamzeh Fathollahzadeh and Hossein Mobli
  The physical and mechanical characteristics of Sonnati Salmas apricot fruits, pits and kernels were studied in this study. Technological properties such as dimensions, geometric mean diameter, sphericity, surface area, bulk density, true density, porosity, volume, mass, true density, bulk density, porosity, 1000-unit mass, coefficient of static friction on various surface and rupture force in 3 axes, were determined at 82.34, 16.48 and 13.03% moisture contents for apricot fruits, apricot pits and apricot kernels respectively. Bulk densities of fruits, pit and kernels were 443.2, 539.4 and 540.1 kg/m3, the corresponding true densities were 940.7, 1045.5 and 1023.6 kg/m3 and the corresponding porosities were 52.87, 48.40 and 47.21%, respectively. The volumes, mass and surface area of fruits were larger than those of pits and kernels. Static coefficient of friction of fruit on all surfaces (wood, glass, galvanize sheet and fiber glass sheet) were measured and static coefficient of friction was less bout for pits and kernels on glass and their value were 0.474 and 0.188, respectively. Rupture force of fruit, pit and kernel were 10.11, 497.79 and 18.92 N through length, 7.98, 322.59 and 41.97N through width and 7.01, 337.21 and 99.58 N through thickness. Results showed that rupture force through length were minimum and this result is very important factor in design post harvest machines, especially about apricot pit crasher machine.
 
 
 
Copyright   |   Desclaimer   |    Privacy Policy   |   Browsers   |   Accessibility