Modeling Gas Adsorption in Marcellus Shale With Langmuir and BET Isotherms

Yu, Wei; Sepehrnoori, Kamy; Patzek, Tadeusz W

doi:10.2118/170801-pa

Cited by 167 publications

(97 citation statements)

References 32 publications

(46 reference statements)

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“…In our previous studies, it was found that four experimental measurements of methane adsorption from the Marcellus Shale core samples deviate from the Langmuir isotherm, but obey the BET isotherm . The standard BET isotherm assumes that the number of adsorption layers is infinite.…”

Section: Mass Conservation Equationmentioning

confidence: 99%

“…Gas transport in shale formation involves complex gas transport mechanisms due to the presence of a large amount of nanopores and organic matter, which include gas desorption, adsorbed gas porosity, gas slippage, and Knudsen diffusion, and so forth . Yu et al reported that the adsorbed gas porosity can be up to as high as 3.8% based on the experimental measurements of gas adsorption isotherm in some area of Marcellus shale. However, this important effect has not yet been well documented and clearly understood in the literature.…”

Section: Introductionmentioning

confidence: 99%

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Simulation of shale gas transport and production with complex fractures using embedded discrete fracture model

Liu

et al. 2018

AIChE Journal

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The goal of this study is to develop a new model to simulate gas and water transport in shale nanopores and complex fractures. A new gas diffusivity equation was first derived to consider multiple important physical mechanisms such as gas desorption, gas slippage and diffusion, and non-Darcy flow. For complex fractures, a state-of-the-art embedded discrete fracture model (EDFM) was implemented. Numerical model is verified against a commercial reservoir simulator for shale gas simulation with multiple planar fractures. After that, a series of simulation studies was performed to investigate the impacts of complex gas transport mechanisms and various fracture geometries on well performance. The critical parameters controlling well performance are identified. The simulation results reveal that modeling of gas production from complex fractures as well as modeling important gas transport mechanisms in shale gas reservoirs is extremely significant.Similarly, the other existing apparent permeability models considering complex nanopore phenomena such as surface

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Section: Mass Conservation Equationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Simulation of shale gas transport and production with complex fractures using embedded discrete fracture model

Liu

et al. 2018

AIChE Journal

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“…In case of shales, previous studies mostly focused on application of Langmuir model to the experimental methane and CO 2 adsorption data [9][10][11][12][13][18][19][20][21][22][23]. Some researchers have also reported the applicability of BET and D-P models that are based on the mechanism of multilayer adsorption or pore-volume filling, respectively [24][25][26][27]. Recently few authors have applied the Ono-Kondo model to describe methane adsorption data on shales [27,28].…”

Section: Introductionmentioning

confidence: 99%

Applicability of various adsorption isotherm models on adsorption of methane and CO₂ on Indian shales

Rani

Prusty

Padmanabhan

et al. 2019

Env Prog and Sustain Energy

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To produce natural gas (methane) and simultaneously sequester CO2 in unconventional geologic reservoirs such as gas shale, coalbeds and so on, it is necessary to understand the adsorption behavior of methane and CO2 in these reservoir formations. In this article, adsorption behavior of methane and CO2 on shale samples from Gondwana Basin and KG Basin of India are studied. Adsorption experiments are conducted on as‐received shale samples from these basins at a temperature of 313 K to a maximum equilibrium pressure of approximately 9 MPa for methane and 6 MPa for CO2. The methane and CO2 adsorption data are applied to test the applicability of Langmuir, Dubinin‐Polanyi, BET, and Ono‐Kondo models. A comparison of these models is performed using linear and nonlinear Chi‐squared methods. It was observed that Dubinin‐Astakhov equation was the most accurate adsorption isotherm model for adsorption of methane and CO2 on tested shales. Further, the better fitting by Dubinin‐Polanyi equation over BET, Langmuir, and Ono‐Kondo models suggest that the mechanism of volume filling may be applicable during the adsorption of methane and CO2 on shales. The preferential adsorption of methane and carbon dioxide on Pakur, KG, and Salanpur shales were investigated. The Pakur shale had CO2:CH4 adsorption ratio ~1. © 2019 American Institute of Chemical Engineers Environ Prog, 38: 13222, 2019

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“…They found that the simple Langmuir and Dubinin-Radushkevich models were the most adequate for modeling supercritical single component adsorption on coal and shale as long as the density value is adjusted on the simulator for the CO 2 since it has a direct effect on the compressibility value. Yu [16] used BET Isotherm rather than Langmuir Isotherm to model gas adsorption in Marcellus Shale. They observed that the Langmuir isotherm does not accurately model adsorption in all cases in the Marcellus shale, and hence a combination of BET and Langmuir isotherm should be applied.…”

Section: Introductionmentioning

confidence: 99%

A review of carbon dioxide adsorption to unconventional shale rocks methodology, measurement, and calculation

Fakher

Imqam

2019

SN Appl. Sci.

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Carbon dioxide (CO 2 ) injection has been applied extensively in hydrocarbon reservoirs for both increasing oil recovery and CO 2 storage purposes. Recently, CO 2 injection has been proposed to increase oil recovery and for CO 2 storage in shale reservoirs. During CO 2 injection in shale reservoirs, adsorption will take place on the surface of the rock, which will impact both the oil recovery and the storage capacity. This research provides a roadmap to the different types of adsorption and the adsorption measurements and calculations with emphasis on the ones most applicable during CO 2 injection in shale reservoirs. The main two types of adsorption are initially explained including physisorption and chemisorption, and the major applicable adsorption isotherms are explained and their limitations are listed. The research then focusses on physisorption and its types, and hysteresis trends since chemisorption does not occur in shale reservoirs during CO 2 injection. The different methods used to measure adsorption are then illustrated and explained including volumetric, gravimetric, volumetric-gravimetric, oscillometry, and impedance spectroscopy. The different calculation methods for volumetric adsorption are then explained. Finally, the most common errors that have been observed during measurement and calculation of adsorption are listed and explained, while mentioning the method to avoid each error. This research provides a guideline to the proper and accurate measurement of CO 2 adsorption on shale rock during enhanced oil recovery applications and CO 2 storage operations in unconventional shale reservoirs to improve the productivity and applicability of this application.

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Modeling Gas Adsorption in Marcellus Shale With Langmuir and BET Isotherms

Cited by 167 publications

References 32 publications

Simulation of shale gas transport and production with complex fractures using embedded discrete fracture model

Simulation of shale gas transport and production with complex fractures using embedded discrete fracture model

Applicability of various adsorption isotherm models on adsorption of methane and CO₂ on Indian shales

A review of carbon dioxide adsorption to unconventional shale rocks methodology, measurement, and calculation

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Modeling Gas Adsorption in Marcellus Shale With Langmuir and BET Isotherms

Cited by 167 publications

References 32 publications

Simulation of shale gas transport and production with complex fractures using embedded discrete fracture model

Simulation of shale gas transport and production with complex fractures using embedded discrete fracture model

Applicability of various adsorption isotherm models on adsorption of methane and CO2 on Indian shales

A review of carbon dioxide adsorption to unconventional shale rocks methodology, measurement, and calculation

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Product

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Applicability of various adsorption isotherm models on adsorption of methane and CO₂ on Indian shales