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1	The economic feasibility of enhanced coalbed methane recovery using CO2 sequestration in the San Juan Basin Agrawal, Angeni 17 September 2007 (has links) Carbon dioxide emissions are considered a major source of increased atmospheric CO2 levels leading towards global warming. CO2 sequestration in coal bed reservoirs is one technique that can reduce the concentration of CO2 in the air. In addition, due to the chemical and physical properties of carbon dioxide, CO2 sequestration is a potential option for substantially enhancing coal bed methane recovery (ECBM). The San Juan Fruitland coal has the most prolific coal seams in the United States. This basin was studied to investigate the potential of CO2 sequestration and ECBM. Primary recovery of methane is controversial ranging between 20-60% based on reservoir properties in coal bed reservoirs15. Using CO2 sequestration as a secondary recovery technique can enhance coal bed methane recovery up to 30%. Within the San Juan Basin, permeability ranges from 1 md to 100 md. The Fairway region is characterized with higher ranges of permeability and lower pressures. On the western outskirts of the basin, there is a transition zone characterized with lower ranges of permeability and higher pressures. Since the permeability is lower in the transition zone, it is uncertain whether this area is suitable for CO2 sequestration and if it can deliver enhanced coal bed methane recovery. The purpose of this research is to determine the economic feasibility of sequestering CO2 to enhance coal bed methane production in the transition zone of the San Juan Basin Fruitland coal seams. The goal of this research is two- fold. First, to determine whether there is a potential to enhance coal bed methane recovery by using CO2 injection in the transition zone of the San Juan Basin. The second goal is to identify the optimal design strategy and utilize a sensitivity analysis to determine whether CO2 sequestration/ECBM is economically feasible. Based on the results of my research, I found an optimal design strategy for four 160- acre spacing wells. With a high rate injection of CO2 for 10 years, the percentage of recovery can increase by 30% for methane production and it stores 10.5 BCF of CO2. The economic value of this project is $17.56 M and $19.07 M if carbon credits were granted at a price of $5.00/ton. If CO2 was not injected, the project would only give $15.55 M. coalbed methane CO2 Sequestration San Juan Basin
2	Review of Torrejonian mammals from the San Juan Basin, New Mexico Taylor, Louis Henry, 1944- January 1984 (has links) No description available.
3	Geochronology of Torrejonian sediments, Nacimiento Formation, San Juan Basin, New Mexico Taylor, Louis Henry, 1944- January 1977 (has links) No description available. Geological time.
4	Paleocene silcrete beds in the San Juan Basin Rains, George Edward January 1981 (has links) No description available. Geology, Stratigraphic -- Paleocene. Quartzite.
5	The Gallegos Sandstone (formerly Ojo Alamo Sandstone) of the San Juan Basin, New Mexico Powell, Jon Scott, 1948- January 1972 (has links) No description available. Geology, Stratigraphic -- Cretaceous. Geology, Stratigraphic -- Paleocene.
6	COMPUTER-ASSISTED DECISION AID FOR THE ESTIMATION OF MINERAL ENDOWMENT: URANIUM IN THE SAN JUAN BASIN, NEW MEXICO, A CASE STUDY. CARRIGAN, FRANCIS JOHN. January 1983 (has links) The Arizona Appraisal System is a totally integrated methodology that uses a series of interactive computer programs to translate subjective geologic opinion into a probabilistic estimate of mineral endowment. By "totally integrated methodology" is meant a unified, conceptually complete approach. This methodology comprises two main sections, each executed on a different computer system. The first section, the Geologic Decision Model, has been computerized as an interactive PLATO program. Using the PLATO system, the geologist describes probabilistically the perceived states of geologic processes and conditions. The decision model analyzes this information and computes a probability distribution for mineral occurrence. The second section, the Endowment Simulation Model (program MASTER), is run on the DEC 10 and Cyber 175 computers. Program MASTER takes the product of the Geologic Decision Model, combines it with other data, and produces a probabilistic estimate of mineral endowment for the region being evaluated. Development and testing of the Arizona Appraisal System were carried out simultaneously over a period of about three years. During this period, four geologists from government and industry were called upon four or five times over a period of about a year for a study of the uranium (U₃O₈) endowment in the San Juan Basin of northwestern New Mexico. The results produced by the system consist, for each geologist, of a probability distribution for tons of U₃O₈ endowment for (1) each partition of each stratigraphic unit, (2) each stratigraphic unit as a whole, (3) "formations" or "merged units" (groups of stratigraphic units), and (4) the San Juan Basin as a whole (all stratigraphic units). The system also calculates the average distribution across all geologists for the various merged units and for the basin as a whole. The result for the basin as a whole (in thousands of tons) is: mean 3,855, variance 4,108 x 10⁹, and 95th percentile 6,541. The author believes that his major contribution has been to design and implement a working resource estimation methodology that is flexible with respect to commodity and geographic location. Ore deposits -- Data processing. Uranium ores -- Data processing.
7	Diffusion Characterization of Coal for Enhanced Coalbed Methane Production Chhajed, Pawan 01 August 2011 (has links) This thesis explores the concept of displacement of sorbed methane and enhancement of methane recovery by injection of CO2 into coal, while sequestering CO2. The objective of this study was to investigate the diffusion behavior of San Juan Basin coal under single and competitive gas environments. The movement of gas in a coalbed reservoir starts in the coal matrix with diffusion towards the naturally occurring cleat network surrounding the matrix blocks. The gas production potential from coalbed reservoirs under different gas environments was, therefore, estimated by studying the diffusion behavior of the coal type. The results clearly showed that the rate of diffusion increases with decreasing reservoir pressure, the increase being exponential at low/very low pressure. As a final step, a simulation study was carried out using the experimental results to predict long-term gas production from coalbed reservoirs with and without CO2 injection. This was followed by a preliminary economic analysis in order to estimate the feasibility of enhanced recovery method by CO2 injection by calculating the net present value of a project with and without carbon credits. The results showed that it is possible to obtain significant improvement in methane recovery by CO2 injection. However, it becomes economically feasible only with carbon credits. CH4-CO2 injection Coalbed Methane Diffusion Coefficient Enhanced Coalbed Methane Production Simulation for San Juan Basin Sorption Isotherms
8	Use of Architectural Element Analysis to Interpret the Depositional Environment and Reservoir Characteristics of the Pictured Cliffs Sandstone, Northern San Juan Basin, Colorado Yuvaraj, Senthil Velan January 2010 (has links) No description available. Geology Pictured Cliffs Sandstone Architectural Element Analysis San Juan Basin Prograding Shoreline Sequence Sequence Stratigraphy Reservoir Characterizaion
9	Reinterpretation of the Ignacio and Elbert Formations as an Incised Valley Fill Using Facies Analysis and Sequence Stratigraphy; San Juan Basin, Southwest Colorado Maurer, Joshua Thomas 23 July 2012 (has links) No description available. Geology Sedimentary Geology Ignacio Formation Elbert Formation Incised Valley Sequence Facies Analysis Sequence Stratigraphy Devonian San Juan Basin Colorado

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