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Methane And Carbon Dioxide Adsorption Capacity Estimation And Modeling On Coals
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Book Synopsis Methane and Carbon Dioxide Adsorption Capacity Estimation and Modeling on Coals by : Rui Zhang
Download or read book Methane and Carbon Dioxide Adsorption Capacity Estimation and Modeling on Coals written by Rui Zhang and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Characterization of gas sorption behavior on coals plays an important role on coalbed methane (CBM) and CO2-enhanced CBM industry. In this study, the excess adsorption capacities were estimated for four coal samples with different ranks including San Juan sub-bituminous coal, Pittsburgh No. 8 bituminous coal, Hazleton anthracite and Good Spring anthracite by the volumetric adsorption experimental method. Adsorption and desorption isotherms of methane and CO2 were directly measured for these four coal samples. Langmuir based models and Dubinin-Astakhov (D-A) based models were used to model adsorption behavior of both methane and CO2. The experimental results showed that CH4/CO2 excess adsorption capacity ratio varied from 1:1.1 to 1:1.6 at maximum equilibrium pressure on these coals. Higher rank coals have higher excess adsorption capacities than lower rank coals across the experimental pressure range. Hysteresis of CO2 is discernable and larger than methane for all coals. Higher rank coals have negligible methane hysteresis but larger CO2 hysteresis than lower rank coals. From the modeling results, maximum CO2 adsorption capacities are larger than methane capacities for all coals. In general, D-A based models were modeled better than Langmuir based models for these coals. Added k term reduced modeling error for both Langmuir and D-A series models. In addition, the modified Langmuir model-1 have relatively high errors for all coal samples.
Book Synopsis Estimating Methane Content of Bituminous Coalbeds from Adsorption Data by : Ann G. Kim
Download or read book Estimating Methane Content of Bituminous Coalbeds from Adsorption Data written by Ann G. Kim and published by . This book was released on 1977 with total page 30 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Exploration, exploitation, and utilization of coal-measure gas into the future: Volume II by : Mingjun Zou
Download or read book Exploration, exploitation, and utilization of coal-measure gas into the future: Volume II written by Mingjun Zou and published by Frontiers Media SA. This book was released on 2023-06-05 with total page 227 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Adsorption of Pure Methane, Nitrogen, and Carbon Dioxide and Their Mixtures on San Juan Basin Coal by :
Download or read book Adsorption of Pure Methane, Nitrogen, and Carbon Dioxide and Their Mixtures on San Juan Basin Coal written by and published by . This book was released on 2002 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: The major objectives of this project were to (a) measure the adsorption behavior of pure methane, nitrogen, CO2 and their binary and ternary mixtures on wet Tiffany coal at 130 F and pressures to 2000 psia; (b) correlate the equilibrium adsorption isotherm data using the extended Langmuir model, the Langmuir model, the loading ratio correlation and the Zhou-Gasem-Robinson equation of state; and (c) establish sorption-time estimates for the pure components. Specific accomplishments are summarized below regarding the complementary tasks involving experimental work and data correlation. Representative coal samples from BP Amoco Tiffany Injection Wells No. 1 and No. 10 were prepared, as requested. The equilibrium moisture content and particle size distribution of each coal sample were determined. Compositional coal analyses for both samples were performed by Huffman Laboratories, Inc. Pure gas adsorption for methane on wet Tiffany coal samples from Injection Wells No. 1 and No. 10 was measured separately at 130 F (327.6 K) and pressures to 2000 psia (13.7 MPa). The average expected uncertainty in these data is about 3% (9 SCF/ton). Our measurements indicate that the adsorption isotherms of the two coal samples exhibit similar Langmuir-type behavior. For the samples from the two wells, a maximum variation of about 5% in the amount adsorbed is observed at 2000 psia. Gas adsorption isotherms were measured for pure methane, nitrogen and CO2 on a wet, mixed Tiffany coal sample. The coal sample was an equal-mass mixture of coals from Well No. 1 and Well No. 10. The adsorption measurements were conducted at 130 F at pressures to 2000 psia. The adsorption isotherms have average expected experimental uncertainties of 3% (9 SCF/ton), 6% (8 SCF/ton), and 7% (62 SCF/ton) for methane, nitrogen, and CO2, respectively. Adsorption isotherms were measured for methane/nitrogen, methane/CO2 and nitrogen/CO2 binary mixtures on wet, mixed Tiffany coal at 130 F and pressures to 2000 psia. These measurements were conducted for a single molar feed composition for each mixture. The expected uncertainties in the amount adsorbed for these binary mixtures vary with pressure and composition. In general, average uncertainties are about 5% (19 SCF/ton) for the total adsorption; however, the expected uncertainties in the amount of individual-component adsorption are significantly higher for the less-adsorbed gas at lower molar feed concentrations (e.g., nitrogen in the 20/80 nitrogen/CO2 system). Adsorption isotherms were measured for a single methane/nitrogen/CO2 ternary mixture on wet, mixed Tiffany coal at 130 F and pressures to 2000 psia. The nominal molar feed composition was 10/40/50. The average expected uncertainty for the total adsorption and CO2 adsorption is about 5% (16 SCF/ton). However, the low adsorption of nitrogen and methane in this ternary yield average experimental uncertainties of 14% (9 SCF/ton) and 27% (9 SCF/ton), respectively. Limited binary and ternary gas-phase compressibility factor measurements at 130 F and pressures to 2000 psia involving methane, nitrogen, and CO2 were conducted to facilitate reduction of our ternary adsorption data. These newly acquired data (and available data from the literature) were used to improve the Benedict-Webb-Rubin (BWR) equation-of-state (EOS) compressibility factor predictions, which are used in material balance calculations for the adsorption measurements. In general, the optimized BWR EOS represents the experimental compressibility factor data within 0.5% AAD. The Langmuir/loading ratio correlation (LRC) and the Zhou-Gasem-Robinson (ZGR) two-dimensional EOS were used to analyze the newly acquired adsorption data. Model parameters were obtained for the systems studied. The LRC and ZGR EOS were used to correlate the adsorption data for methane, nitrogen, and CO2 and their mixtures on wet Tiffany coal. The model parameters were determined by minimizing the sum of squares of weighted errors in the calculated amounts of gas adsorbed. The results demonstrate the ability of the LRC and ZGR EOS to represent the total pure, binary and ternary systems within their expected experimental uncertainties. Specifically, representations with average absolute percentage errors (AAD) of 1-3% (2-15 SCF/ton), 1-8% (1-25 SCF/ton), and 2-10% (7-37 SCF/ton) were obtained for the pure, total binary, and total ternary adsorption isotherms, respectively. However, the quality of fit for the individual-component adsorption varies significantly, ranging from 3% for the more-adsorbed methane or CO2 to 32% for the less-adsorbed nitrogen. The LRC and ZGR EOS are capable of predicting binary adsorption isotherms based solely on pure-fluid adsorption parameters within twice their experimental uncertainties (1-50 %AAD, 5-40 SCF/ton).
Book Synopsis Diffusion in and through solids by : R.M. Barrer
Download or read book Diffusion in and through solids written by R.M. Barrer and published by Рипол Классик. This book was released on 1941 with total page 479 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Activated Carbon Adsorption by : Roop Chand Bansal
Download or read book Activated Carbon Adsorption written by Roop Chand Bansal and published by CRC Press. This book was released on 2005-05-24 with total page 498 pages. Available in PDF, EPUB and Kindle. Book excerpt: High surface area, a microporous structure, and a high degree of surface reactivity make activated carbons versatile adsorbents, particularly effective in the adsorption of organic and inorganic pollutants from aqueous solutions. Activated Carbon Adsorption introduces the parameters and mechanisms involved in the activated carbon adsorption
Book Synopsis Methane and Carbon Dioxide Adsorption/desorption Isotherms for Powder River Basin Coal by : Samir Budhathoki
Download or read book Methane and Carbon Dioxide Adsorption/desorption Isotherms for Powder River Basin Coal written by Samir Budhathoki and published by . This book was released on 2021 with total page 111 pages. Available in PDF, EPUB and Kindle. Book excerpt: Adsorption/desorption isotherms were developed for methane (CH4) and carbon dioxide (CO2) using crushed coal saturated with coal bed methane (CBM) water. The coal samples were collected from two CBM wells in Wyoming’s Powder River Basin (PRB). One located within the Canyon coal seam of the Upper Wyodak Formation and the other in Felix coal. Adsorption/desorption isotherms for a single and binary gas mix of methane and carbon dioxide gases were developed for wet and dry coal. Experiments revealed that moisture content reduces the adsorption of the various gases on the coal surface. The ratio of the gases (CH4 and CO2) adsorbed m dry/m wet was ~1.45 and ~1.54 for crushed sub-bituminous Canyon and Felix coals. The isotherm study results showed that carbon dioxide had a greater adsorption affinity than methane and that methane desorbed at a higher rate than carbon dioxide gas. Experiments also revealed that CO2 gas adsorbed two to four times more than that of the CH4 gas with the difference increasing as a function of pressure. Langmuir model was a good fit for the overall adsorption studies of the adsorbate gases on coal samples. The results of this study have important implications for microbially enhanced renewable natural gas and carbon sequestration in coal seams.
Book Synopsis Coal and Coalbed Gas by : Romeo M. Flores
Download or read book Coal and Coalbed Gas written by Romeo M. Flores and published by Newnes. This book was released on 2013-10-19 with total page 717 pages. Available in PDF, EPUB and Kindle. Book excerpt: Bridging the gap in expertise between coal and coalbed gas, subfields in which opportunities for cross training have been nonexistent, Coal and Coalbed Gas sets the standard for publishing in these areas. This book treats coal and coalbed gas as mutually inclusive commodities in terms of their interrelated origin, accumulation, composition, distribution, generation, and development, providing a balanced understanding of this energy mix. Currently considered a non-renewable energy resource, coalbed gas, or coalbed methane, is a form of natural gas extracted from coal beds. In recent years, countries have begun to seek and exploit coal for its clean gas energy in an effort to alleviate environmental issues that come with coal use, making a book on this topic particularly timely. This volume takes into account processes of coalification, gasification, and storage and reservoir characterization and evaluation and looks at water management and environmental impacts as well. - Covers environmental issues in the development of coalbed gas - Includes case studies, field guides and data, examples, and analytical procedures from previous studies and investigations - Accessible by a large multidisciplinary market by one of the world's foremost experts on the topic
Book Synopsis Unconventional Natural Gas Geoscience by : Jienan Pan
Download or read book Unconventional Natural Gas Geoscience written by Jienan Pan and published by Frontiers Media SA. This book was released on 2022-08-05 with total page 315 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Petrophysical Characterization and Fluids Transport in Unconventional Reservoirs by : Jianchao Cai
Download or read book Petrophysical Characterization and Fluids Transport in Unconventional Reservoirs written by Jianchao Cai and published by Elsevier. This book was released on 2019-01-24 with total page 354 pages. Available in PDF, EPUB and Kindle. Book excerpt: Petrophysical Characterization and Fluids Transport in Unconventional Reservoirs presents a comprehensive look at these new methods and technologies for the petrophysical characterization of unconventional reservoirs, including recent theoretical advances and modeling on fluids transport in unconventional reservoirs. The book is a valuable tool for geoscientists and engineers working in academia and industry. Many novel technologies and approaches, including petrophysics, multi-scale modelling, rock reconstruction and upscaling approaches are discussed, along with the challenge of the development of unconventional reservoirs and the mechanism of multi-phase/multi-scale flow and transport in these structures. - Includes both practical and theoretical research for the characterization of unconventional reservoirs - Covers the basic approaches and mechanisms for enhanced recovery techniques in unconventional reservoirs - Presents the latest research in the fluid transport processes in unconventional reservoirs
Book Synopsis 2020 International Conference on Data Processing Techniques and Applications for Cyber-Physical Systems by : Chuanchao Huang
Download or read book 2020 International Conference on Data Processing Techniques and Applications for Cyber-Physical Systems written by Chuanchao Huang and published by Springer Nature. This book was released on 2021-06-01 with total page 1669 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book covers cutting-edge and advanced research on data processing techniques and applications for cyber-physical systems, gathering the proceedings of the International Conference on Data Processing Techniques and Applications for Cyber-Physical Systems (DPTA 2020), held in Laibin City, Guangxi Province, China, on December 11–12, 2020. It examines a wide range of topics, including distributed processing for sensor data in CPS networks; approximate reasoning and pattern recognition for CPS networks; data platforms for efficient integration with CPS networks; machine learning algorithms for CPS networks; and data security and privacy in CPS networks. Outlining promising future research directions, the book offers a valuable resource for students, researchers, and professionals alike, while also providing a useful reference guide for newcomers to the field.
Book Synopsis SEQUESTERING CARBON DIOXIDE IN COALBEDS. by :
Download or read book SEQUESTERING CARBON DIOXIDE IN COALBEDS. written by and published by . This book was released on 2001 with total page 110 pages. Available in PDF, EPUB and Kindle. Book excerpt: During the present reporting period, six complementary tasks involving experimentation, model development, and coal characterization were undertaken to meet our project objectives: (1) A second adsorption apparatus, utilizing equipment donated by BP Amoco, was assembled. Having confirmed the reliability of this additional experimental apparatus and procedures, adsorption isotherms for CO2, methane, ethane, and nitrogen on wet Fruitland coal and on activated carbon were measured at 319.3 K (115 F) and pressures to 12.4 MPa (1800 psia). These measurements showed good agreement with our previous data and yielded an expected uncertainty of about 3%. The addition of this new facility has allowed us to essentially double our rate of data production. (2) Adsorption isotherms for pure CO2, methane, and nitrogen on wet Illinois-6 coal and on activated carbon were measured at 319.3 K (115 F) and pressures to 12.4 MPa (1800 psia) on our first apparatus. The activated carbon measurements showed good agreement with literature data and with measurements obtained on our second apparatus. The expected uncertainty of the data is about 3%. The Illinois-6 adsorption measurements are a new addition to the existing database. Preparations are underway to measure adsorption isotherms for pure methane, carbon dioxide and nitrogen on DESC-8 coal. (3) Adsorption from binary mixtures of methane, nitrogen and CO2 at a series of compositions was also measured on the wet Fruitland coal at 319.3 K (115 F), using our first apparatus. The nominal compositions of these mixtures are 20%/80%, 40%/60%, 60%/40%, and 80%/20%. The experiments were conducted at pressures from 100 psia to 1800 psia. The expected uncertainty for these binary mixture data varies from 2 to 9%. (4) A study was completed to address the previously-reported rise in the CO2 absolute adsorption on wet Fruitland coal at 115 F and pressures exceeding 1200 psia. Our additional adsorption measurements on Fruitland coal and on activated carbon show that: (a) the Gibbs adsorption isotherm for CO2 under study exhibits typical adsorption behavior for supercritical gas adsorption, and (b) a slight variation from Type I absolute adsorption may be observed for CO2, but the variation is sensitive to the estimates used for adsorbed phase density. (5) The experimental data were used to evaluate the predictive capabilities of various adsorption models, including the Langmuir/loading ratio correlation, a two-dimensional cubic equation of state (EOS), a new two-dimensional (2-D) segment-segment interactions equation of state, and the simplified local density model (SLD). Our model development efforts have focused on developing the 2-D analog to the Park-Gasem-Robinson (PGR) EOS and an improved form of the SLD model. The new PGR EOS offers two advantages: (a) it has a more accurate repulsive term, which is important for reliable adsorption predictions, and (b) it is a segment-segment interactions model, which should more closely describe the gas-coal interactions during the adsorption process. In addition, a slit form of the SLD model was refined to account more precisely for heterogeneity of the coal surface and matrix swelling. In general, all models performed well for the Type I adsorption exhibited by methane, nitrogen, and carbon dioxide up to 8.3 MPa (average deviations within 2%). In comparison, the SLD model represented the adsorption behavior of all fluids considered within 5% average deviations, including the near-critical behavior of carbon dioxide beyond 8.3 MPa (1200 psia). Work is in progress to (a) derive and implement the biporous form of the SLD model, which would expand the number of structural geometries used to represent the heterogeneity of coal surface; and (b) extend the SLD model to mixture predictions. (6) Proper reduction of our adsorption data requires accurate gas-phase compressibility (Z) factors for methane, ethane, nitrogen and carbon dioxide and their mixtures to properly analyze our experimental adsorption data. A careful evaluation of the current literature, leads us to concluded that an adequate predictive capability for the mixture Z factors dose not exist. Therefore, we have elected to develop such a capability using the Benedict-Webb-Rubin (BWR) equation of state. Specifically, we have used the available pure-fluid and binary mixture data to refit the BWR equation and improve its accuracy significantly; in general, the new BWR EOS parameters yield deviations in the Z factor within 0.2%.
Book Synopsis Sorption Behavior of Coal for Enhanced Gas Recovery and Carbon Sequestration by : Basanta Kumar Prusty
Download or read book Sorption Behavior of Coal for Enhanced Gas Recovery and Carbon Sequestration written by Basanta Kumar Prusty and published by . This book was released on 2005 with total page 298 pages. Available in PDF, EPUB and Kindle. Book excerpt: The concept of displacement of sorbed methane and enhancement of coalbed methane recovery by injecting CO2 into coal reservoirs, while simultaneously sequestering the CO2 , has been studied over the last few years. Preferential adsorption of CO2 over methane is considered to be responsible for the ability of the former to displace the adsorbed methane. The primary objective of this study was to investigate the ability of CO2 to displace and enhance the recovery of sorbed methane, when injected in coals after partial production. A secondary objective was to study the sorption of methane and CO2 on coals to investigate the degree to which coal exhibits preferential sorption for one over the other. During the first experimental phase, single component adsorption experiments were carried out using pure methane and CO2 on coals from the San Juan and Illinois Basins, and the relative (CO2 :CH4 ) sorption values were calculated. As a part of this study, applicability of different adsorption models, such as Langmuir, Dubinin-Polanyi (D-P), and BET equations were tested for adsorption of methane and CO2 on coals. In the second phase, CO2 injection experiments were carried out after partial desorption of methane to study its effect on desorption of additional methane. Finally, numerical simulation was undertaken to estimate the incremental methane recovery by injection of CO2 as compared to production by the primary recovery method. The results showed that CO2 adsorbed preferentially (approximately 3 times more) over methane. CO2 injection experiments showed that, in most cases, injected CO2 displaced all of the sorbed methane, while the total pressure was maintained at high levels. However, this effect was not universal. In some cases, injection of CO2 was effective only until a certain point, after which it did not result in recovery of additional methane. In other cases, the injected CO2 led to re-adsorption of methane, thus delaying the methane recovery. The results also suggested that competitive sorption, as in the case of CO2 injection in coals, is very complex and the mechanism may be significantly different from that in pure gas adsorption. The D-A equation best fit the adsorption data for both methane and CO2 for the pressure range tested. The Langmuir equation also gave a good fit, while the BET equation did not fit well. The simulation study showed that it is possible to obtain significant improvement in methane recovery by injection of CO2.
Download or read book Applied Geology written by Marina De Maio and published by Springer Nature. This book was released on 2020-07-09 with total page 314 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book includes a careful selection of significant contributions from international experts that were presented at the 6th AIGA Conference “Applied Geology: Approaches to Future Resource Management” that was held in the Courmayeur, Aosta Valley, Italy, from 27 - 29 June 2018. The following 7 areas are the main themes covered in this volume: · Applied Geology · Hydrogeology · Geological Exploration (underground) · Slope Instability, · Natural Hazards, Risk Assessment and Management, · Geo-resources and Sustainable Development · Application of Remote Sensing and Geographical Information Systems (GIS) The authors, from academia, research and industry present the latest state of the practice, new technologies, innovative methods and sustainable management in the field of Applied and Environmental Geology. This carefully edited work will be of value to academia, professionals, scientists and decision makers.
Book Synopsis Carbon Dioxide Sequestration in Geological Media by : Matthias Grobe
Download or read book Carbon Dioxide Sequestration in Geological Media written by Matthias Grobe and published by AAPG. This book was released on 2010-03-01 with total page 702 pages. Available in PDF, EPUB and Kindle. Book excerpt: Over the past 20 years, the concept of storing or permanently storing carbon dioxide in geological media has gained increasing attention as part of the important technology option of carbon capture and storage within a portfolio of options aimed at reducing anthropogenic emissions of greenhouse gases to the earths atmosphere. This book is structured into eight parts, and, among other topics, provides an overview of the current status and challenges of the science, regional assessment studies of carbon dioxide geological sequestration potential, and a discussion of the economics and regulatory aspects of carbon dioxide sequestration.
Book Synopsis An Investigation on Carbon Dioxide Sequestration in Indian Coal Seams by : Vikram Vishal
Download or read book An Investigation on Carbon Dioxide Sequestration in Indian Coal Seams written by Vikram Vishal and published by . This book was released on 2013 with total page 478 pages. Available in PDF, EPUB and Kindle. Book excerpt: The term 'geological sequestration' stands for the capture of CO2 directly from anthropogenic sources and disposing of it deep into the ground for geologically significant periods of time (Bachu, 2002). Coal seam sequestration as described by White et al. (2005) is "the storage of CO2 from anthropogenic sources into deep, unminable coal seams for geologically significant limits with or without concomitant recovery of natural gas".Methane is native to coal and has its origin in coalification process. Coal is the source as well as reservoir to significant quantities of methane, a potential energy resource. Coalbed methane (CBM) a bonus non-conventional energy source is generated mainly due to geochemical transformation of the organic matter by catagenesis. CO2 injection reduces the partial pressure of methane and enhances desorption of methane from the matrix. CO2 has an additional effect compared to other gases that it is preferentially adsorbed onto coal surfaces, displacing methane from adsorption sites. CO2-ECBM sequestration is a value addition project in management of increasing atmospheric concentration of greenhouse gases (GHG) as it recovers the cost of capture, processing, transportation and storage of CO2 by production of methane.The primary aim of this research was to develop an understanding on the coal-fluid interaction pertinent to carbon storage in coal seams with special reference to Indian coal basins. Damodar valley coalfield where production of coalbed methane is being carried out was chosen for this study. The objectives of this study included detailed knowledge of geotechnical characterization of coal measure rocks, strength characteristics of coal under saturation in different media, swelling and stress induced changes in flow behaviour of coal in multiple phases of carbon dioxide and estimation of gas storage potential of Indian coal basins.After the geological field work, petrographic and geomechanical characterization of coal measure rocks was carried out. Sandstone and shale along with varying degrees of their intercalations were identified in thin section studies under the microscope. The pertinent geomechanical characteristics of the rocks and coal were determined using laboratory tests according to the International Society of Rock Mechanics (ISRM) standards. Some data generated during these tests were used as inputs for prediction of Uniaxial Compressive Strength (UCS) and P-wave velocity using soft computing. An important aspect of coal seam sequestration is the influence of CO2 saturation on strength parameters and failure characteristics of the host. Fluid saturation experiments were carried out to explore the effects of CO2 adsorption on natural as well as moisture-equilibrated coal. Water saturation of coal led to high reduction in its strength implying that the seam pressure in water saturated sinks must be managed at lower levels during sequestration as compared to the dry reservoirs. Injection of CO2 leads to sorptive weakening of coal. The scenario was worst when CO2 was injected in wet coal. CO2 saturation induces swelling in coal and creates or enhances the fracture lines along coal as also evident by the early crack initiation in the acoustic emission results. Coupled stress strain data during uniaxial compression were recorded and analyzed. Introduction of water and CO2 caused early failure of coal samples at a lower value of load alongside inducing larger amount of strain at same stress values. The brittle nature of coal became less pronounced upon water saturation leading to larger time for crack initiation. To overcome the structural heterogeneity in coal, reconstituted coal specimens of uniform grain size were prepared using moulds and their strength was calculated under dry and saturated conditions. The reconstituted coal specimens were developed at different stresses and the properties of coal developed at 22 MPa and 24 MPa were found to be closest to that of natural coal. The magnitude of strength reduction in these samples was less as compared to the natural specimens. This could be due to high compaction and elimination of flow paths for fluids. Sample interiors remained largely intact and least affected by the fluids and hence, the strength remained closer to unsaturated reconstituted coal specimens.Permeability in coal is one of the most vital issues that determine the production or sequestration performance of coal. The permeability of CO2 in different phases in coal samples under various possible scenarios was estimated using a newly developed, high precision P-T controlled triaxial set up. The permeability of coal decreased exponentially with increasing effective stresses for Indian coal and new empirical equations accounting for stress behaviour of coal permeability were proposed. The rate of coal matrix swelling reduced in 30-40 hours of gas injection after which coal permeability gradually increased with increasing upstream pressure. Finally, at constant pore pressure, coal permeability reduced drastically with increasing confining stresses. A similar experiment was conducted using naturally fractured coal from the same seam while maintaining a low range of confining and injection pressures to ensure a complete gas phase CO2 flow. The permeability of coal reduced with increasing CO2 injection pressure in four out of five cases of confinement implying that complete closure of fractures due to coal swelling took longer time of CO2 saturation. However, permeability of coal reduced exponentially with increasing effective stresses. The next experiment investigated liquid and supercritical CO2 permeability of coal at varying confining pressures (15 - 24 MPa), corresponding to different depths of coal. The initial liquid CO2 permeability of coal at 10 MPa injection pressure reduced from 0.011 mD at 15 MPa confinement to 0.0004 mD at 24 MPa confinement. Further experiments revealed that the initial permeability of coal using supercritical CO2 (0.005 mD) was nearly half of that for liquid CO2 (0.011 mD). Nitrogen, used as a relatively inert medium, experienced a reduction in permeability in coal through which CO2 was passed. Maximum reduction in coal permeability was observed in supercritical CO2 flow, due to high sorption induced swelling of coal. After the role of confining stresses in different phase of CO2 was studied, the role of CO2 saturation period on coal permeability was studied at a fixed confining pressure of 18 MPa. Permeability of liquid as well as supercritical CO2 reduced after each period of 20 h saturation. Maximum permeability reduction took place by nearly 27% and 43% for liquid and supercritical CO2 saturation respectively, in the first out of three saturation periods. However, permeability of supercritical CO2 continued to reduce after each period of saturation while minimal reduction took place at the end of second and third period of swelling with liquid CO2. Similar trends were also observed in case of N2 since the cleats were effectively closed due to passage of different phases of CO2. This highlights that supercritical state of CO2 induces maximum adsorption related swelling and the subsequent reduction in coal permeability.Based on detailed experimental understanding of the coal samples and the field information on behaviour of coal seams, reservoir simulation studies were carried out using a commercial simulator called COMET 3. Model construction was followed by history matching of the CBM wells to establish and validate those before extending the cases for CO2 injection and enhanced recovery of the natural gas. The same established models were used to investigate parametric influence on production characteristics of coal. In a scenario of given block size with one injection well and two production wells, the spatial distribution and relative flow of the two gases were explored with change in time. The salient findings of these studies included: coals adsorbed CO2 quickly and surrounding matrix attained peak CO2 matrix concentration in one month due to high adsorption potential for CO2. The fracture gas saturation increased at first mainly near the production well due to sudden desorption of CH4 as a consequence of dewatering. Gradually, high gas saturation resulted in the block. The statistical data generated from this study revealed that over a period of 4000 days of observation, the coal block would take in approximately 7.7 bcf of CO2 and in lieu of which it would produce around 2.6 bcf of CH4 and a total of 12000 bbls of water. Similar exercise was carried out for two blocks in Jharia coalfields. The study on one block showed that over a period of 4000 days, the chosen coal block adsorbed approximately 7.75 bcf of CO2 in turn released 2.24 bcf of methane gas. The same variety of coal was simulated for a period of 20 years with an increased block size and it was found that for the chosen dimensions of Gondwana coal block in India, a total of 15.1 bcf of CO2 may be injected for permanent storage alongside recovery of not less than 5 bcf of methane. Numerical simulation for the established Jharia model was used to predict and understand the influence of sorption time on the production behaviour of coals. It revealed that the CO2 injection capacity into high sorption time coal was significantly higher than coal with low sorption time. Therefore, if not suitable for economical extraction of methane, these may alternatively be utilized as CO2 sinks. It was also shown that for coal belonging to Gondwana basin setting in India, sorption time less than 10 days followed equilibrium model of desorption. Although coals with higher sorption time exhibited non-equilibrium desorption and diffusion, they were finally observed to converge with the equilibrium model at later stages of gas injection/production. Some future works based on the new findings were suggested at the end of this research work.
Book Synopsis Engineering Geology for Society and Territory - Volume 1 by : Giorgio Lollino
Download or read book Engineering Geology for Society and Territory - Volume 1 written by Giorgio Lollino and published by Springer. This book was released on 2014-08-23 with total page 532 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is one out of 8 IAEG XII Congress volumes and deals with climate change affecting different natural processes and environments, such as slope dynamics, water courses, coastal and marine environments, hydrological and littoral processes and permafrost terrain. Due to climate change, major effects are also expected on territorial planning and infrastructure, particularly in extreme climate regions. The volume and its contents aim to analyze the role of engineering geology and the solutions it may offer with respect to the ongoing environmental changes. Contributions regard the modeling of both the factors and the effects induced by climate change. Potential impacts of the climate change on the common practice and routine work of engineering geologists are also analyzed, with particular attention to the risk assessment and mitigation procedures and to the adaptation measures adopted. The Engineering Geology for Society and Territory volumes of the IAEG XII Congress held in Torino from September 15-19, 2014, analyze the dynamic role of engineering geology in our changing world and build on the four main themes of the congress: environment, processes, issues and approaches. The congress topics and subject areas of the 8 IAEG XII Congress volumes are: Climate Change and Engineering Geology. Landslide Processes. River Basins, Reservoir Sedimentation and Water Resources. Marine and Coastal Processes. Urban Geology, Sustainable Planning and Landscape Exploitation. Applied Geology for Major Engineering Projects. Education, Professional Ethics and Public Recognition of Engineering Geology. Preservation of Cultural Heritage.
