Title : ( A novel approach for fracture porosity estimation of carbonate reservoirs )
Authors: Javad Sharifi , Naser Hafezi Moghaddas , Mohammad Reza Saberi , Nazmul Haque Mondo ,Abstract
The quality of carbonate reservoirs is linked to their rock properties and surrounding stress settings which can play a vital role in their production optimization and development programs. Imposing various stresses can increase porosity and permeability by creating joints and cracks across the rock mass. Therefore, developing methods to identify and accurately evaluate fractures in carbonate reservoirs is very significant in reservoir characterization. To deal with this necessity, we developed a fracture porosity estimation method using empirical and analytical solutions based on the wireline data considering stress conditions. The proposed methodology was applied to a carbonate reservoir as the case study. As fracture porosity is sensitive to stress, experimental tests were conducted on the core samples using triaxial hydrostatic tests. These tests are needed to simulate reservoir conditions to investigate the relationships between fracture volume fraction and the applied stress. A substantial porosity loss was observed during the hydrostatic test, which can be linked to the crack porosity closure. The reliability of our results was validated by thin section, CT-Scan images, velocity deviation method, elastic boundary laws, and image logs. Eventually, we introduced an equation to estimate in-situ fracture porosity from the relationship between porosity and effective confining pressure. We verified the repeatability and generality of our proposed methodology using a blind well, and the results indicate a comparable level of accuracy. Our findings are applicable for estimating crack porosity for rock physics modelling purposes of detecting fracture zones in the absence of image logs and core data. Also, by calibrating and optimizing the constant parameters in our proposed relationship, one may further estimate crack density in any other given carbonate reservoirs.
Keywords
, Carbonate reservoir; Fracture porosity; Triaxial test; Stress-porosity index; Velocity deviation, FMI.@article{paperid:1093275,
author = {Sharifi, Javad and Hafezi Moghaddas, Naser and محمد رضا صابری and نازمول هاقو ماندو},
title = {A novel approach for fracture porosity estimation of carbonate reservoirs},
journal = {Geophysical Prospecting},
year = {2023},
volume = {71},
number = {4},
month = {May},
issn = {0016-8025},
pages = {664--681},
numpages = {17},
keywords = {Carbonate reservoir; Fracture porosity; Triaxial test; Stress-porosity index; Velocity
deviation; FMI.},
}
%0 Journal Article
%T A novel approach for fracture porosity estimation of carbonate reservoirs
%A Sharifi, Javad
%A Hafezi Moghaddas, Naser
%A محمد رضا صابری
%A نازمول هاقو ماندو
%J Geophysical Prospecting
%@ 0016-8025
%D 2023