Unconventional Reservoirs: Basic Petrophysical Concepts for Shale Gas

Glorioso, Juan Carlos; Rattia, Aquiles Jesus

doi:10.2118/153004-ms

Cited by 106 publications

(55 citation statements)

References 8 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…proposed by Jarvie et al (2007), Gale (2009), andGlorioso andRattia (2012), respectively, where B compo = 1 indicates brittle and B compo = 0 ductile rocks. We did not include the definition by Jin et al (2014), which is quite similar criterion to B compo3 and considers feldspar, but also mica as strong and brittle minerals (cf.…”

Section: Quantification Of Brittlenessmentioning

confidence: 99%

What controls the mechanical properties of shale rocks? – Part II: Brittleness

Rybacki

Meier

Dresen

2016

Journal of Petroleum Science and Engineering

286

113

View full text Add to dashboard Cite

Successful stimulation of shale gas reservoirs by hydraulic fracturing operations requires prospective rocks characterized by high brittleness to prevent fast healing of natural and hydraulically induced fractures and to decrease the breakdown pressure required to (re-) initiate a fracture. We briefly reviewed existing brittleness indices (B) and applied several, creep experiments are required to estimate in-situ stress anisotropy and the healing behavior of hydraulically induced fractures.

show abstract

Section: Quantification Of Brittlenessmentioning

confidence: 99%

What controls the mechanical properties of shale rocks? – Part II: Brittleness

Rybacki

Meier

Dresen

2016

Journal of Petroleum Science and Engineering

286

113

View full text Add to dashboard Cite

show abstract

“…They rely on the assumption that matrix properties are invariant through organic shale intervals (Ramirez et al, 2011). Kerogen volume can be computed from TOC content by using the formula showed below (Glorioso & Rattia, 2012).…”

Section: Methods And/or Theorymentioning

confidence: 99%

Organic Richness Evaluation through Empirical Methods and Neural Networks

Juarez¹

2017

Proceedings

View full text Add to dashboard Cite

SummaryFrom a petrophysical point of view, organic shales are unique and complex formations since play both source and reservoir roles in the petroleum system. Because of this, it is important to compute the total organic carbon content of these formations and convert it to kerogen volume. In order to achieve it, there are many empirical methods developed for different US shale plays. In the current case of study, some of the well-known methods were applied to an Eagle Ford well and the outputs were calibrated to Rock-Eval 6 core data. Thermal maturity was inferred too by means of the pyrolysis results. Furthermore, a neural network for TOC computation was built and the results were statistically compared each other, and the best output was converted to kerogen volume, one of the most important inputs in the subsequent steps in the petrophysical evaluation of organic shales

show abstract

“…TOC and kerogene are closely associated with shales and silt rich claystone however they can also be present in many carbonates. TOC is expressed as a percentage by weight present in rock [7]. Economic shale gas development candidates require sample organic matter to generate sufficient volumes of hydrocarbons i.e., relatively high TOC.…”

Section: Total Organic Carbon and Thermal Maturitymentioning

confidence: 99%

Shale Gas Characterization of Sembar Formation, Khipro Area, Pakistan

Khan¹,

Bibi²

2016

IJG

View full text Add to dashboard Cite

This study pertains to the evaluation of shale gas and rock physics properties of this area with respect to its total organic content of Sember Formation, Khiproarea, Pakistan. We use well logs data for this study. The Khipro area is prominent in the Lower Indus Basin for its hydrocarbon (oil and gas) structural traps. In shale gas evaluation, TOC of Sember Formation is estimated. The analysis has been done with the help of the wire line data of the well Bilal North-01. The presence of shale gas in the study area is analyzed with the help of different techniques. Rock physics and petrophysical analysis have been done in order to get the properties of the area related to the shale gas evaluation.

show abstract

Unconventional Reservoirs: Basic Petrophysical Concepts for Shale Gas

Cited by 106 publications

References 8 publications

What controls the mechanical properties of shale rocks? – Part II: Brittleness

What controls the mechanical properties of shale rocks? – Part II: Brittleness

Organic Richness Evaluation through Empirical Methods and Neural Networks

Shale Gas Characterization of Sembar Formation, Khipro Area, Pakistan

Contact Info

Product

Resources

About