Introduction to this special section: Quantitative interpretation

2021 ◽  
Vol 40 (10) ◽  
pp. 714-714
Author(s):  
Agnibha Das ◽  
Mita Sengupta
Keyword(s):  
Oil And Gas ◽  
Special Section ◽  
Magnetic Data ◽  
Fluid Composition ◽  
Quantitative Interpretation ◽  
Amplitude Analysis ◽  
Gas Reservoirs ◽  
Reservoir Properties ◽  
Reservoir Architecture ◽  
Oil And Gas Reservoirs

Quantitative interpretation (QI) is the geophysicist's endeavor to go beyond reservoir architecture. It is the effort to use geophysical measurements in understanding reservoir properties such as rock type, porosity, and fluid composition. QI often refers to the use of seismic amplitude analysis to predict lithology, porosity, and pore fluids away from the wellbore in oil and gas reservoirs. However, we can generalize and expand the concept of QI beyond seismic methods and beyond oil and gas reservoirs. In this special section, we feature five papers and cover not only seismic and well-log data, but also gravity and magnetic data. We address a hydrothermal reservoir in addition to several oil and gas reservoirs.

FRACTURE MODELING IN OIL AND GAS RESERVOIRS USING IMAGE LOGS DATA AND PETREL SOFTWARE

2015 ◽  
Vol 75 (11) ◽  
Author(s):  
Mostafa Alizadeh ◽  
Zohreh Movahed ◽  
Radzuan Junin ◽  
Rahmat Mohsin ◽  
Mehdi Alizadeh ◽  
...  
Keyword(s):  
Oil And Gas ◽  
Fracture Permeability ◽  
Gas Reservoirs ◽  
New Information ◽  
Fracture Modeling ◽  
Fracture Intensity ◽  
Major Fault ◽  
Oil And Gas Reservoirs ◽  
Minimum Stress ◽  
Longitudinal Fractures

The purpose of modelling the fractures is to create simulation properties with the power to predict the reservoir behaviour. Petrel software is one of the best softwares in the market that can do this task very well, but there is no available educational paper for every researcher. Therefore, in this work, a fracture modelling job was done in one of the most important Iranian fields using Petrel software and image log data. The purpose of this work was  to determine the new information of the fractures in Gachsaran field and also to prepare a valuable educational paper for other researchers who are interested to learn about the fracture modelling. This work revealed that in this field, the longitudinal fractures had been parallel to minimum stress (Zagros trend), fracture intensity was the nearest to the major fault and northern flank, fracture porosity was 0-7%, fracture permeability was 0-6000 MD, and more valuable information is provided in this paper.

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