Geomaterials

Volume 1, Issue 2 (July 2011)

ISSN Print: 2161-7538   ISSN Online: 2161-7546

Google-based Impact Factor: 0.58  Citations  

A New Approach to the Calculation of Work Index and the Potential Energy of a Particulate Material

HTML  Download Download as PDF (Size: 238KB)  PP. 28-32  
DOI: 10.4236/gm.2011.12005    9,241 Downloads   18,393 Views  Citations

Affiliation(s)

.

ABSTRACT

The work index Wi was defined by F. Bond as the specific energy (kWh/ton) required to reduce a particulate material from infinite grain size to 100 microns. The calculation is based on the size-energy relationship e1,2=C.(1/x2n–1/x1n ) , which for n = 0.5, x1 = ∞ and x2 =100, by definition gives e∞, 100 = Wi and consequently C=10Wi. In theory, for a given material the value found for Wi.should be constant regardless of the measured sizes x1 and x2 used to calculate the constant C by measuring the energy e. In practice this is not so due to the fact that n ≠ 0.5 and many correction factors have been proposed to overcome this inadequacy experienced by accepting n= 0.5. The present paper proposes a simple way to calculate the appropriate exponent n using conventional grinding procedures. The same calculation can be used to calculate the true value of Wi and attribute a potential energy state to a material at any size.

Share and Cite:

E. Stamboliadis, S. Emmanouilidis and E. Petrakis, "A New Approach to the Calculation of Work Index and the Potential Energy of a Particulate Material," Geomaterials, Vol. 1 No. 2, 2011, pp. 28-32. doi: 10.4236/gm.2011.12005.

Cited by

[1] Synthesis of Highly Active Nanozeolites Using Methods of Mechanical Milling, Recrystallization, and Dealumination (A Review)
Petroleum …, 2021
[2] Stirred media mills in the mining industry: Material grindability, energy-size relationships, and operating conditions
2020
[3] Effects of mill rotational speed on the batch grinding kinetics of a UG2 platinum ore
2019
[4] Effects of mill rotational speed on the batch
2019
[5] GRINDING SIZE ESTIMATION AND BENEFICIATION STUDIES BASED ON SIMPLE PROPERTIES OF ORE COMPONENTS
2017
[6] Vertical stirred mill scale-up and simulation: Model validation by industrial samplings results
Minerals Engineering, 2016
[7] Identification of Optimal Mill Operating Parameters during Grinding of Quartz with the Use of Population Balance Modeling
KONA Powder and Particle Journal, 2016
[8] Evaluation of the Relationship Between Energy Input and Particle Size Distribution in Comminution with the Use of Piecewise Regression Analysis
Particulate Science and Technology, 2016
[9] Size–energy relationship in comminution, incorporating scaling laws and heat
International Journal of Mineral Processing, 2016
[10] Proposta de modelo para obtenção do Work Index das rochas
2015
[11] A NEW METHODOLOGY FOR GEOMETALLURGICAL MAPPING OF ORE HARDNESS
2015
[12] The Ore‐Dressing Grindstone Called a 'Quimbalete': a Mechanics‐Based Approach
Archaeometry, 2015
[13] Optimization of a wet flue gas desulfurization scrubber through mathematical modeling of limestone dissolution experiments
Industrial & Engineering Chemistry Research, 2015
[14] A Novel Process for the Study of Breakage Energy versus Particle Size
Geomaterials, 2013
[15] Crushing of Mineral Particles by Control of Their Kinetic Energy
2013
[16] The critical size of brittle solid materials and the measurement of their surface tension
Journal of the Mechanical Behavior of Materials, 2012
[17] Contribución a la caracterización petromineragráfica-textural-geoquímica de las unidades litológicas mineralizadas del pórfido de cobre cuajone (sur del Perú) y su …

Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2024 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.