菜单
  

    The parameter 0<n<1 specifies the relationship between the impact energy per unit mass and the minimum breakable size dmin and controls the saturation value of dmin for given granulate properties and crusher design.
    The parameter k in Eq. (7) controls the shape of the classification function and hence, the shape of the product size distribution. Greater values for k correspond to a higher breakage probability for the large particles. Therefore, k can be expected to decrease with increasing the impact energy. In this work, we assume that k depends directly on the rotor velocity. As the impact energy is proportional to the second power of the rotor velocity, the dependence of k on the impact energy can be written as:
    2.2. Breakage function
    According to Karra (1982), the breakage distribution function bij represents the fraction of the debris created from breakage of identical parent particles of size dj and passing through a screen with mesh size di. It is assumed that the shape of the size distribution of the debris is independent on the size of the parent particles. As mentioned in a review paper by Kelly and Spottiswood (1990), this is true for almost all of the experimentally studied product size distributions obtained by crushing or grinding of a large number of different minerals.
    The breakage distribution function for crushers derived by Whiten and White (1979) reads:
    where φdenotes the mass fraction of the fine product; m and l are material coefficients accounting for the shape of the fine and the coarse product size distributions respectively.
    The cumulative distribution function derived by Broadbent and Callcott (1956) is actually a normalised Weibull distribution starting from a particle size d=0 and, as already explained, not only provides a better fit to the experimental data but can also be obtained from physical considerations related to brittle fracture.
    As for the proportion of the fine product φ, Narayanan and Whiten (1988) found that during impact breakage of single particles, φ increases with increasing the energy intensity while m and l remain virtually unchanged. In the case of impact crushing, this means that φ increases with increasing the rotor velocity. On the other hand, φ should decrease with increasing the feed rate because higher frequency of the particle–particle interactions involves lower average impact energy in the crushing chamber. Taking into account that 0<φ<1 by definition, we can express the above arguments in a mathematical form as follows:
    3. Results
    The model developed in the previous section has been implemented in an in-house FORTRAN code. It has been validated with experiments performed on a hammer crusher with rotor diameter and width of 0.65 and 0.45 m respectively. The rotor radius is R=0.325 m; the height of the rotor’s impact bars is Hb=0.1 m. The material used is limestone from the region of Tournai, Belgium. The feed has been calibrated by screening and its size ranges from 14 to 20 mm. The maximum particle dimension in the feed is dmax=26 mm. The reference feed rate Q0 and the reference impact energy E0 are taken to be 2 t/h and 300 J/kg respectively. The rest of the parameters in Eq. (8) are identified as follows: c0=1.4, c1=0.12 and n=0.35. The parameters of the breakage function (Eqs. (11) and (12)) m, l and c2 are set to 0.74, 2.6 and 0.55 respectively. The values of the parameters necessary to compute the shape of the classification function are fixed to k0=1.35 and k1=0.1.
    The influences of the rotor velocity and the feed rate on the minimum size of the particles that undergo breakage dmin are shown in Fig. 4. It is seen that dmin strongly depends on both the rotor velocity and the feed rate and ranges from 3.8 to 7.8 mm for the given operating conditions.
    For comparison, when the model of Whiten and White (1979) is used for simulation of the behaviour of short-head cone crushers, the values for φ, m and l are often fixed to 0.2, 0.5 and 2.5 respectively. A greater value for the fine fraction φ in our case reflects the well-known fact that the product issued from impact crushing contains more fines than that obtained with cone or jaw crushers.
  1. 上一篇:空调和空调系统英文文献和中文翻译
  2. 下一篇:混凝土构件中裂纹建模英文文献和中文翻译
  1. 汽车乘员舱的声振耦合英文文献和中文翻译

  2. 立体光照成型的注塑模具...

  3. 低频振动的铁路车轴的状...

  4. 接头的形状对沥青塞接头...

  5. 电-气动驱动的垂直计算机...

  6. 开口端纺纱系统中的锥形...

  7. 木质填料聚丙烯复合材料...

  8. 十二层带中心支撑钢结构...

  9. 大众媒体对公共政策制定的影响

  10. 中考体育项目与体育教学合理结合的研究

  11. 河岸冲刷和泥沙淤积的监测国内外研究现状

  12. java+mysql车辆管理系统的设计+源代码

  13. 当代大学生慈善意识研究+文献综述

  14. 酸性水汽提装置总汽提塔设计+CAD图纸

  15. 电站锅炉暖风器设计任务书

  16. 杂拟谷盗体内共生菌沃尔...

  17. 乳业同业并购式全产业链...

  

About

751论文网手机版...

主页:http://www.751com.cn

关闭返回