Your search keyword '"McKenna, Sean A."' showing total 653 results

651. Applications of fractured continuum model to enhanced geothermal system heat extraction problems.

Author

Kalinina EA, Klise KA, McKenna SA, Hadgu T, and Lowry TS

Abstract

This paper describes the applications of the fractured continuum model to the different enhanced geothermal systems reservoir conditions. The capability of the fractured continuum model to generate fracture characteristics expected in enhanced geothermal systems reservoir environments are demonstrated for single and multiple sets of fractures. Fracture characteristics are defined by fracture strike, dip, spacing, and aperture. The paper demonstrates how the fractured continuum model can be extended to represent continuous fractured features, such as long fractures, and the conditions in which the fracture density varies within the different depth intervals. Simulations of heat transport using different fracture settings were compared with regard to their heat extraction effectiveness. The best heat extraction was obtained in the case when fractures were horizontal. A conventional heat extraction scheme with vertical wells was compared to an alternative scheme with horizontal wells. The heat extraction with the horizontal wells was significantly better than with the vertical wells when the injector was at the bottom.

Published

2014

652. Multiwell CO2 injectivity: impact of boundary conditions and brine extraction on geologic CO2 storage efficiency and pressure buildup.

Author

Heath JE, McKenna SA, Dewers TA, Roach JD, and Kobos PH

Subjects

Computer Simulation, Numerical Analysis, Computer-Assisted, Time Factors, Carbon Dioxide analysis, Geological Phenomena, Pressure, Salts chemistry

Abstract

CO2 storage efficiency is a metric that expresses the portion of the pore space of a subsurface geologic formation that is available to store CO2. Estimates of storage efficiency for large-scale geologic CO2 storage depend on a variety of factors including geologic properties and operational design. These factors govern estimates on CO2 storage resources, the longevity of storage sites, and potential pressure buildup in storage reservoirs. This study employs numerical modeling to quantify CO2 injection well numbers, well spacing, and storage efficiency as a function of geologic formation properties, open-versus-closed boundary conditions, and injection with or without brine extraction. The set of modeling runs is important as it allows the comparison of controlling factors on CO2 storage efficiency. Brine extraction in closed domains can result in storage efficiencies that are similar to those of injection in open-boundary domains. Geomechanical constraints on downhole pressure at both injection and extraction wells lower CO2 storage efficiency as compared to the idealized scenario in which the same volumes of CO2 and brine are injected and extracted, respectively. Geomechanical constraints should be taken into account to avoid potential damage to the storage site.

Published

2014

653. Native RNA purification by gel filtration chromatography.

Author

Booy EP, Meng H, and McKenna SA

Subjects

Buffers, Centrifugation, Chromatography, High Pressure Liquid, Nucleic Acid Amplification Techniques, RNA biosynthesis, Transcription, Genetic, Chromatography, Gel methods, RNA isolation & purification

Abstract

In vitro transcription of RNA from DNA templates by T7 RNA polymerase allows for the generation of large quantities of RNA suitable for many downstream applications. The resulting RNA can be purified by a number of methodologies. Herein, we describe the native isolation of RNA molecules by FPLC purification using Superdex 75 or 200 gel filtration columns. This approach can be extended to purify biologically interesting RNA complexes such as RNA-protein complexes that have been generated from either synthetic or in vitro transcribed RNAs and recombinant proteins.

Published

2012