Energy Input and Size Distribution in Comminution
- Organization:
- The American Institute of Mining, Metallurgical, and Petroleum Engineers
- Pages:
- 4
- File Size:
- 327 KB
- Publication Date:
- Jan 2, 1960
Abstract
Distribution of material in the fine sizes of a comminution product generally is well represented by the empirical equation [ ] in which y = cumulative percent finer, x = particle size, = distribution modulus, and k = size modulus. Charles found that the energy consumption in comminution is usefully expressed by another empirical relation, [ ] in which E = energy input per unit volume of material, A = a constant, k = size modulus based on Eq. 1, and n = a constant; ( 1-n) is the slope of a plot of log E vs log k. Holmes has presented energy equations similar to Eq. 2.
Citation
APA: (1960) Energy Input and Size Distribution in Comminution
MLA: Energy Input and Size Distribution in Comminution. The American Institute of Mining, Metallurgical, and Petroleum Engineers, 1960.