The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock

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Standard

The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock. / Ouchterlony, Finn; Sanchidrián, José Angel.
Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Hrsg. / Håkan Schunnesson; Daniel Johansson. Luleå: Luleå Univ. of Technology, 2018. S. 689-701.

Publikationen: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Konferenzband

Harvard

Ouchterlony, F & Sanchidrián, JA 2018, The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock. in H Schunnesson & D Johansson (Hrsg.), Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Luleå Univ. of Technology, Luleå, S. 689-701.

APA

Ouchterlony, F., & Sanchidrián, J. A. (2018). The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock. In H. Schunnesson, & D. Johansson (Hrsg.), Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting (S. 689-701). Luleå Univ. of Technology.

Vancouver

Ouchterlony F, Sanchidrián JA. The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock. in Schunnesson H, Johansson D, Hrsg., Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Luleå: Luleå Univ. of Technology. 2018. S. 689-701

Author

Ouchterlony, Finn ; Sanchidrián, José Angel. / The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock. Fragblast 12: 12th International Symposium on Rock Fragmentation by Blasting. Hrsg. / Håkan Schunnesson ; Daniel Johansson. Luleå : Luleå Univ. of Technology, 2018. S. 689-701

Bibtex - Download

@inproceedings{965f1997073d45678356aded15c3799e,
title = "The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock",
abstract = "A new regularity in blast fragmentation called the fragmentation-energy fan was recently discovered. When plotting distribution free percentile passing P fragment sizes x_(P )for blasted rock versus specific charge q in a log(x_P )vs.log⁡(q) diagram, then the regression lines for different P-values tend to be straight with slopes -α(P) and to converge on a common focal point. A consequence is that if α(P) is known then the mathematical form of P(x,q) is known and the Swebrec distribution incorporates the fan behavior. This fan is an important component in new prediction equations for blast fragmentation that have error levels of half of those of the Kuz-Ram or CZM models. The fan concept is also applied to drop weight testing data used to assess the crushability of ores in comminution. A closed form solution for the t_10 vs. drop weight energy E_cs (kWh⁄tonne) for arbitrary fragment sizes D is derived, t_10=f(E_cs,D) without a priori assuming the form of the function.",
author = "Finn Ouchterlony and Sanchidri{\'a}n, {Jos{\'e} Angel}",
year = "2018",
month = jun,
language = "English",
isbn = "978-91-7790-134-1",
pages = "689--701",
editor = "Schunnesson, {H{\aa}kan } and Johansson, {Daniel }",
booktitle = "Fragblast 12",
publisher = "Lule{\aa} Univ. of Technology",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - The fragmentation-energy fan concept applied to blasting and drop weight comminution of rock

AU - Ouchterlony, Finn

AU - Sanchidrián, José Angel

PY - 2018/6

Y1 - 2018/6

N2 - A new regularity in blast fragmentation called the fragmentation-energy fan was recently discovered. When plotting distribution free percentile passing P fragment sizes x_(P )for blasted rock versus specific charge q in a log(x_P )vs.log⁡(q) diagram, then the regression lines for different P-values tend to be straight with slopes -α(P) and to converge on a common focal point. A consequence is that if α(P) is known then the mathematical form of P(x,q) is known and the Swebrec distribution incorporates the fan behavior. This fan is an important component in new prediction equations for blast fragmentation that have error levels of half of those of the Kuz-Ram or CZM models. The fan concept is also applied to drop weight testing data used to assess the crushability of ores in comminution. A closed form solution for the t_10 vs. drop weight energy E_cs (kWh⁄tonne) for arbitrary fragment sizes D is derived, t_10=f(E_cs,D) without a priori assuming the form of the function.

AB - A new regularity in blast fragmentation called the fragmentation-energy fan was recently discovered. When plotting distribution free percentile passing P fragment sizes x_(P )for blasted rock versus specific charge q in a log(x_P )vs.log⁡(q) diagram, then the regression lines for different P-values tend to be straight with slopes -α(P) and to converge on a common focal point. A consequence is that if α(P) is known then the mathematical form of P(x,q) is known and the Swebrec distribution incorporates the fan behavior. This fan is an important component in new prediction equations for blast fragmentation that have error levels of half of those of the Kuz-Ram or CZM models. The fan concept is also applied to drop weight testing data used to assess the crushability of ores in comminution. A closed form solution for the t_10 vs. drop weight energy E_cs (kWh⁄tonne) for arbitrary fragment sizes D is derived, t_10=f(E_cs,D) without a priori assuming the form of the function.

M3 - Conference contribution

SN - 978-91-7790-134-1

SP - 689

EP - 701

BT - Fragblast 12

A2 - Schunnesson, Håkan

A2 - Johansson, Daniel

PB - Luleå Univ. of Technology

CY - Luleå

ER -

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