Development of a linear predictive model for carbon dioxide sequestration in deep saline carbonate aquifers

Date

2011-11-01

Author

Anbar, Sultan
Akın, Serhat

Metadata

Show full item record

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Item Usage Stats

165
views

0
downloads

CO2 injection into deep saline aquifers is a preferred method for mitigating CO2 emission. Although deep saline aquifers are found in many sedimentary basins and provide very large storage capacities, several numerical simulations are needed before injection to determine the storage capacity of an aquifer. Since numerical simulations are expensive and time-consuming, using a predictive model enables quick estimation of CO2 storage capacity of a deep saline aquifer. In order to create a predictive model, the ranges of variables that affect the CO2 storage capacity were determined from published literature data. Correlations found in literature were used for other important parameters such as pore volume compressibility and density of brine. Latin hypercube space filling design was used to construct 100 simulation cases prepared using CMG STARS. The simulation period covered a total of 300 years of CO2 storage. By using a least-squares method, linear and nonlinear predictive models were developed to estimate CO2 storage capacity of deep saline carbonate aquifers. Numerical dispersion effects were considered by decreasing the grid dimensions. It was observed that a dimensionless linear predictive model is better than the nonlinear. The sensitivity analyses showed that the most important parameter that affects CO2 storage capacity is depth. Most of the (up to 90%) injected gas dissolved into the formation water and a negligible amount of CO2 reacted with carbonate.

Subject Keywords

Computers in Earth Sciences, Information Systems

URI

https://hdl.handle.net/11511/34311

Journal

COMPUTERS & GEOSCIENCES

DOI

https://doi.org/10.1016/j.cageo.2011.03.010

Collections

Department of Petroleum and Natural Gas Engineering, Article

Suggestions

OpenMETU
Core

On the estimation of kinetic parameters of organic matters using linearization methods Uraz, Irtek; Akın, Serhat; Kök, Mustafa Verşan (Elsevier BV, 2004-08-01) Kinetic parameters obtained by various thermal analysis methods are widely used in petroleum and other industries. These methods are restricted to relatively simple models that consist of a single equation and have usually uneven sensitivity on the uncertainty of the experimental data due to logarithmic conversions. An important consideration affecting the success of the linearization methods is that the proper selection of the beginning and the end of the linear section. A new method was implemented in adv...
Mathematical modeling of steam-assisted gravity drainage Akın, Serhat (Elsevier BV, 2006-03-01) A mathematical model for gravity drainage in heavy-oil reservoirs and tar sands during steam injection in linear geometry is proposed. The mathematical model is based on experimental observations that the steam zone shape is an inverted triangle with the vertex fixed at the bottom production well. Both temperature and asphaltene content dependence of viscosity of the drained heavy oil and their impact on heavy oil production are considered. The developed model has been validated using experimental data pres...
The effect of aquifer heterogeneity on natural attenuation rate of BTEX Ucankus, Tuba; Ünlü, Kahraman (Springer Science and Business Media LLC, 2008-04-01) Monitored natural attenuation can be a viable option for remediation of groundwater contamination by BTEX compounds. Under the field conditions, the rate of contaminant mass attenuation through natural processes, such as biodegradation, to a large extent affected by the groundwater flow regime, which is primarily controlled by the aquifer heterogeneity. Numerical simulation techniques were used to describe quantitatively the relationship between biodegradation rate of BTEX and aquifer heterogeneity. Differe...
Analysis of carbon dioxide sequestration in shale gas reservoirs by using experimental adsorption data and adsorption models Merey, Sukru; Sınayuç, Çağlar (2016-11-01) For carbon dioxide (CO2) sequestration in depleted shale gas reservoirs or CO2 injection as an enhanced shale gas recovery technique, it is important to understand the adsorption mechanism in these reservoirs. In this study, experimental adsorption measurements for Dadas shale samples were conducted at 25 degrees C, 50 degrees C, and 75 degrees C up to approximately 2000 psia by using pure CO2 (maximum adsorption capacity 0.211 mmol/g at 25 degrees C) and pure methane (CH4) (maximum adsorption capacity 0.04...
Development of a laccase based paper biosensor for the detection of phenolic compounds Öktem, Hüseyin Avni; EYİDOĞAN, FÜSUN; Bayrac, Ceren; Yilmaz, Remziye (2012-04-01) Laccase (E.C.1.10.3.2, p-benzenediol: oxygen oxidoreductase) catalyzes the oxidation of various aromatic compounds, particularly phenols, which are organic pollutants, present in wastewater. With this specific function this enzyme has had a great impact on the development of biosensors for both environmentally important pollutants and clinically relevant metabolites. There are different detection procedures such as chromatographic and spectrophotometric methods to detect the presence of phenolic compounds i...

Citation Formats

S. Anbar and S. Akın, “Development of a linear predictive model for carbon dioxide sequestration in deep saline carbonate aquifers,” COMPUTERS & GEOSCIENCES, pp. 1802–1815, 2011, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/34311.