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The effect of interaction time and saturation of rock on specific energy in ND:YAG laser perforating

✍ Scribed by M. Ahmadi; M.R. Erfan; M.J. Torkamany; Gh.A. Safian

Publisher
Elsevier Science
Year
2011
Tongue
English
Weight
333 KB
Volume
43
Category
Article
ISSN
0030-3992

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✦ Synopsis

Laser perforating in oil and gas wells is a new scientific approach to the generation of uniform holes at a selected pitch to increasing the permeability of rocks. The influence of laser irradiation time and rock saturation by water and heavy oil on the specific energy, the energy required to remove the unit weight of rock, used during Nd:YAG laser perforating. The results show that an increase in the laser irradiation time increases the depth of the rock hole as well as the specific energy used, with a nonlinear relationship. Here, the estimated equation of rate of penetration as a function of the specific energy (SE) is free from saturation effects. The type of saturation influences the specific energy; the amount of SE required for water saturated samples is more than that required for the heavy oil saturated samples, and heavy oil saturated samples needed more SE than the dry samples.

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