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Energies 2016, 9(11), 958; doi:10.3390/en9110958

An Alternative to Conventional Rock Fragmentation Methods Using SCDA: A Review

1
Deep Earth Energy Laboratory, Department of Civil Engineering, Monash University, Building 60, Melbourne 3800, Victoria, Australia
2
Department of Infrastructure Engineering, Faculty of Engineering, the University of Melbourne, Building 176, Block D, Grattan Street, Parkville 3010, Victoria, Australia
*
Author to whom correspondence should be addressed.
Academic Editor: Moran Wang
Received: 9 October 2016 / Revised: 3 November 2016 / Accepted: 10 November 2016 / Published: 17 November 2016
(This article belongs to the Special Issue Unconventional Natural Gas (UNG) Recoveries)
View Full-Text   |   Download PDF [4378 KB, uploaded 17 November 2016]   |  

Abstract

Global energy and material consumption are expected to rise in exponential proportions during the next few decades, generating huge demands for deep earth energy (oil/gas) recovery and mineral processing. Under such circumstances, the continuation of existing methods in rock fragmentation in such applications is questionable due to the proven adverse environmental impacts associated with them. In this regard; the possibility of using more environmentally friendly options as Soundless Chemical Demolition Agents (SCDAs) play a vital role in replacing harmful conventional rock fragmentation techniques for gas; oil and mineral recovery. This study reviews up to date research on soundless cracking demolition agent (SCDA) application on rock fracturing including its limitations and strengths, possible applications in the petroleum industry and the possibility of using existing rock fragmentation models for SCDA-based rock fragmentation; also known as fracking. Though the expansive properties of SCDAs are currently used in some demolition works, the poor usage guidelines available reflect the insufficient research carried out on its material’s behavior. SCDA is a cementitious powdery substance with quicklime (CaO) as its primary ingredient that expands upon contact with water; which results in a huge expansive pressure if this CaO hydration reaction occurs in a confined condition. So, the mechanism can be used for rock fragmentation by injecting the SCDA into boreholes of a rock mass; where the resulting expansive pressure is sufficient to create an effective fracture network in the confined rock mass around the borehole. This expansive pressure development, however, dependent on many factors, where formation water content creates a negative influence on this due to required greater degree of hydration under greater water contents and temperature creates a positive influence by accelerating the reaction. Having a precise understanding of the fracture propagation mechanisms when using SCDA is important due to the formation of complex fracture networks in rocks. Several models can be found in the literature based on the tangential and radial stresses acting on a rock mass surrounding an SCDA charged borehole. Those fracture models with quasi-static fracturing mechanism that occurs in Mode I type tensile failure show compatibility with SCDA fracturing mechanisms. The effect of borehole diameter, spacing and the arrangement on expansive pressure generation and corresponding fracture network generation is important in the SCDA fracturing process and effective handling of them would pave the way to creating an optimum fracture network in a targeted rock formation. SCDA has many potential applications in unconventional gas and oil recovery and in-situ mining in mineral processing. However, effective utilization of SCDA in such application needs much extensive research on the performance of SCDA with respect to its potential applications, particularly when considering unique issues arising in using SCDA in different applications. View Full-Text
Keywords: soundless cracking demolition agents (SCDAs); expansive properties; volume expansion mechanism; rock fracturing; fracture mechanisms soundless cracking demolition agents (SCDAs); expansive properties; volume expansion mechanism; rock fracturing; fracture mechanisms
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MDPI and ACS Style

De Silva, R.V.; Pathegama Gamage, R.; Anne Perera, M.S. An Alternative to Conventional Rock Fragmentation Methods Using SCDA: A Review. Energies 2016, 9, 958.

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