Geochemical kinetics during CO2 sequestration : the reactivity of the Hontomín caprock and the hydration of MgO

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Total Pages : 222 pages
Book Rating : 4.:/5 (112 download)

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Book Synopsis Geochemical kinetics during CO2 sequestration : the reactivity of the Hontomín caprock and the hydration of MgO by : Gabriela Dávila Ordoñez

Download or read book Geochemical kinetics during CO2 sequestration : the reactivity of the Hontomín caprock and the hydration of MgO written by Gabriela Dávila Ordoñez and published by . This book was released on 2016 with total page 222 pages. Available in PDF, EPUB and Kindle. Book excerpt: A test site for CO2 geological storage is situated in Hontomín (Burgos, northern Spain) with a reservoir rock that is mainly composed of limestone. The reservoir rock is a deep saline aquifer, which contains a NaCl- and sulfate-rich groundwater in equilibrium with calcite and gypsum, and is covered by a very low permeability formation composed of marls, marly limestone and bitominous shales which acts as a caprock. During and after CO2 injection, since the resident groundwater contains sulfate, the resulting CO2-rich acid solution may gives rise to the dissolution and precipitation may occur. These reactions that may imply changes in the porosity, permeability and pore structure of the rock could vary the CO2 seal capacity of the caprock. Therefore, performing reliable experiments and reactive transport modeling to gain knowledge about the overall process of gypsum precipitation at the expense of calcite dissolution in CO2-rich solutions and its implications for the hydrodynamic properties of the caprock is necessary. A first aim of this thesis is to better understand these coupled reactions by assessing the effect that PTotal, pCO2, T, mineralogy, acidity and solution saturation state exert on these reactions. To this end, flow-through experiments with illite powder samples and flow-through experiments and columns filled with crushed marly limestone are conducted under different PTotal-pCO2 conditions (atmospheric: 1-10-3.5 and subcritical: 10-10 bar), T (25 and 60 °C) and input solution compositions (gypsum-undersaturated and gypsum-equilibrated solutions). A second aim of this PhD study is to evaluate the interaction between the Hontomín marl and CO2-rich sulfate solutions under supercritical CO2 conditions (PTotal = 150 bar, pCO2 = 61 bar and T = 60 °C). Flow-through percolation experiments were performed using artificially fractured cores to elucidate (i) the role of the composition of the injected solutions (S-free and S-rich solutions) and (ii) the effect of the flow rate (0.2, 1 and 60 mL min-1) on fracture permeability. Major dissolution of calcite (S-free and S-rich solutions) and precipitation of gypsum (S-rich solution) together with minor dissolution of the silicate minerals contributed to the formation of an altered skeleton-like zone (mainly made up of unreacted clays) along the fracture walls. Dissolution patterns changed from face dissolution to wormhole formation and uniform dissolution with increasing Peclet numbers. The third aim is to study caustic magnesia (MgO) as an alternative to Portland cement, not only to be used in the space between the well casing and the rock but also to seal rock fractures (grouting). The overall MgO-carbonation process is considered to happen when MgO hydrates rapidly to form brucite (Mg(OH)2). When brucite dissolves in a Ca-rich and CO2-saturated solution, the solution supersaturates with respect to Ca and/or Mg carbonates (e.g., dolomite (CaMg(CO3)2), nesquehonite (MgCO3·3(H2O)), hydromagnesite (Mg5(CO3)4(OH)2·4(H2O)) and magnesite (MgCO3)). Different T and pCO2 conditions will determine the formation of these carbonates. The molar volumes of the implicated minerals (cm3 mol-1) [(Mg(OH)2 (24.63), CaCO3 (36.93), MgCO3 (28.02), CaMg(CO3)2 (64.37), Mg5(CO3)4(OH)2·4(H2O) (208.08), MgCO3·3(H2O) (75.47)], with large molar volumes for the secondary phases, favor a potential decrease in porosity and hence the sealing of cracks in cement structures, preventing CO2 leakage. MgO carbonation has been studied by means of batch experiments under subcritic (pCO2 of 10 and 50 bar and T of 25, 70 and 90 °C) and supercritic (pCO2 of 74 bar and T of 70 and 90 °C) CO2 conditions. In all cases, CrunchFlow numerical code was used to perform 1D, 2D and OD reactive transport simulations of the experiments to evaluate mineral reaction rates in the system and quantify the porosity variation in the columns, percolation and batch experiments respectively.

Geological Sequestration of Carbon Dioxide

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Publisher : Elsevier
ISBN 13 : 0080466885
Total Pages : 471 pages
Book Rating : 4.0/5 (84 download)

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Book Synopsis Geological Sequestration of Carbon Dioxide by : Luigi Marini

Download or read book Geological Sequestration of Carbon Dioxide written by Luigi Marini and published by Elsevier. This book was released on 2006-10-12 with total page 471 pages. Available in PDF, EPUB and Kindle. Book excerpt: The contents of this monograph are two-scope. First, it intends to provide a synthetic but complete account of the thermodynamic and kinetic foundations on which the reaction path modeling of geological CO2 sequestration is based. In particular, a great effort is devoted to review the thermodynamic properties of CO2 and of the CO2-H2O system and the interactions in the aqueous solution, the thermodynamic stability of solid product phases (by means of several stability plots and activity plots), the volumes of carbonation reactions, and especially the kinetics of dissolution/precipitation reactions of silicates, oxides, hydroxides, and carbonates. Second, it intends to show the reader how reaction path modeling of geological CO2 sequestration is carried out. To this purpose the well-known high-quality EQ3/6 software package is used. Setting up of computer simulations and obtained results are described in detail and used EQ3/6 input files are given to guide the reader step-by-step from the beginning to the end of these exercises. Finally, some examples of reaction-path- and reaction-transport-modeling taken from the available literature are presented. The results of these simulations are of fundamental importance to evaluate the amounts of potentially sequestered CO2, and their evolution with time, as well as the time changes of all the other relevant geochemical parameters (e.g., amounts of solid reactants and products, composition of the aqueous phase, pH, redox potential, effects on aquifer porosity). In other words, in this way we are able to predict what occurs when CO2 is injected into a deep aquifer.* Provides applications for investigating and predicting geological carbon dioxide sequestration* Reviews the geochemical literature in the field* Discusses the importance of geochemists in the multidisciplinary study of geological carbon dioxide sequestration

Geochemistry of Geologic CO2 Sequestration

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Publisher : Walter de Gruyter GmbH & Co KG
ISBN 13 : 1501508075
Total Pages : 556 pages
Book Rating : 4.5/5 (15 download)

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Book Synopsis Geochemistry of Geologic CO2 Sequestration by : Donald J. DePaolo

Download or read book Geochemistry of Geologic CO2 Sequestration written by Donald J. DePaolo and published by Walter de Gruyter GmbH & Co KG. This book was released on 2018-12-17 with total page 556 pages. Available in PDF, EPUB and Kindle. Book excerpt: Volume 77 of Reviews in Mineralogy and Geochemistry focuses on important aspects of the geochemistry of geological CO2 sequestration. It is in large part an outgrowth of research conducted by members of the U.S. Department of Energy funded Energy Frontier Research Center (EFRC) known as the Center for Nanoscale Control of Geologic CO2 (NCGC). Eight out of the 15 chapters have been led by team members from the NCGC representing six of the eight partner institutions making up this center - Lawrence Berkeley National Laboratory (lead institution, D. DePaolo - PI), Oak Ridge National Laboratory, The Ohio State University, the University of California Davis, Pacific Northwest National Laboratory, and Washington University, St. Louis.

Kinetics of Geochemical Processes

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Publisher : Walter de Gruyter GmbH & Co KG
ISBN 13 : 1501508237
Total Pages : 408 pages
Book Rating : 4.5/5 (15 download)

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Book Synopsis Kinetics of Geochemical Processes by : Anthonio C. Lasaga

Download or read book Kinetics of Geochemical Processes written by Anthonio C. Lasaga and published by Walter de Gruyter GmbH & Co KG. This book was released on 2018-12-17 with total page 408 pages. Available in PDF, EPUB and Kindle. Book excerpt: Volume 8 of Reviews in Mineralogy treats a Short Course in Kinetics, which brings together the fundamentals needed to explain field observations using kinetic data. It is hoped that this book may serve, not only as a reference for researchers dealing with the rates of geochemical processes, but also as a text in courses on geochemical kinetics. The book is organized with a rough temperature gradient in mind, i.e. low temperature kinetics at the beginning and igneous kinetics at the end. However, the topics in each chapter are general enough that they can be applied often to any geochemical domain: sedimentary, metamorphic or igneous. The theory of kinetics operates at two complementary levels: the phenomenological and the atomistic. The former relies on macroscopic variables (e.g. temperature or concentrations) to describe the rates of reactions or the rates of transport; the latter relates the rates to the basic forces operating between the particular atomic or molecular species of any system. This book deals with both descriptions of the kinetics of geochemical processes.

A Novel Approach to Experimental Studies of Mineral Dissolution Kinetics

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ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (727 download)

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Book Synopsis A Novel Approach to Experimental Studies of Mineral Dissolution Kinetics by :

Download or read book A Novel Approach to Experimental Studies of Mineral Dissolution Kinetics written by and published by . This book was released on 2008 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Currently, DOE is conducting pilot CO2 injection tests to evaluate the concept of geological sequestration. The injected CO2 is expected to react with the host rocks and these reactions can potentially alter the porosity, permeability, and mechanical properties of the host or cap rocks. Reactions can also result in precipitation of carbonate-containing minerals that favorably and permanently trap CO2 underground. Many numerical models have been used to predict these reactions for the carbon sequestration program. However, a firm experimental basis for predicting silicate reaction kinetics in CO2 injected geological formations is urgently needed to assure the reliability of the geochemical models used for the assessments of carbon sequestration strategies. The funded experimental and theoretical study attempts to resolve this outstanding scientific issue by novel experimental design and theoretical interpretation of silicate dissolution rates at conditions pertinent to geological carbon sequestration. In this four year research grant (three years plus a one year no cost extension), seven (7) laboratory experiments of CO2-rock-water interactions were carried out. An experimental design allowed the collection of water samples during experiments in situ and thus prevented back reactions. Analysis of the in situ samples delineated the temporal evolution of aqueous chemistry because of CO2-rock-water interactions. The solid products of the experiments were retrieved at the end of the experimental run, and analyzed with a suite of advanced analytical and electron microscopic techniques (i.e., atomic resolution transmission electron microscopy (TEM), scanning electron microscopy (SEM), electron microprobe, X-ray diffraction, X-ray photoelectron spectroscopy (XPS)). As a result, the research project probably has produced one of the best data sets for CO2-rock-water interactions in terms of both aqueous solution chemistry and solid characterization. Three experiments were performed using the Navajo sandstone. Navajo sandstone is geologically equivalent to the Nugget sandstone, which is a target formation for a regional partnership injection project. Our experiments provided the experimental data on the potential CO2-rock-water interactions that are likely to occur in the aquifer. Geochemical modeling was performed to interpret the experimental results. Our single mineral (feldspar) experiments addressed a basic research need. i.e., the coupled nature of dissolution and precipitation reactions, which has universal implication to the reaction kinetics as it applied to CO2 sequestration. Our whole rock experiments (Navajo sandstone) addressed the applied research component, e.g., reacting Navajo sandstone with brine and CO2 has direct relevance on the activities of a number of regional partnerships. The following are the major findings from this project: (1) The project generated a large amount of experimental data that is central to evaluating CO2-water-rock interactions and providing ground truth to predictive models, which have been used and will inevitably be increasingly more used in carbon sequestration. (2) Results from the feldspar experiments demonstrated stronger coupling between dissolution and precipitation reactions. We show that the partial equilibrium assumption did not hold in the feldspar hydrolysis experiments (Zhu and Lu, submitted, Appendix A-2). The precipitation of clay minerals influenced dissolution of primary silicate in a much stronger way as previously envisioned. Therefore, our experimental data indicated a much more complex chemical kinetics as it has been applied to carbon sequestration program in terms of preliminary predictive models of CO2-rock-water interactions. Adopting this complexity (strong coupling) may influence estimates of mineral trapping and porosity/permeability for geological carbon sequestration. In general, our knowledge of the coupling of different reactions is poor, and we must consider the uncertainties resulting from our poor knowledge on this regard. (3) Our experimental results concur with previous findings that the role of dissolved CO2 is mostly to acidify the brine, but not change the mechanisms of reactions. This conclusion is based on careful paired experiments with and without CO2. (4) We observed strong chemical reactions between CO2 acidified brine with the Navajo sandstone. The laboratory experiments were conducted at a higher temperature (200 C) than that in the field ((almost equal to)90 C) in order to induce measurable chemical changes in the laboratory. However, field conditions are more acidic and reaction time is much longer (1000 years versus 10-80 days in the laboratory). Therefore, the conclusions on extensive reactions are relevant. We observed extensive dissolution of feldspars, and precipitation of clay minerals.

Carbon Dioxide Sequestration in Geological Media

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Publisher : AAPG
ISBN 13 : 0891810668
Total Pages : 702 pages
Book Rating : 4.8/5 (918 download)

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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.

Aluminosilicate Dissolution and Silicate Carbonation During Geologic CO2 Sequestration

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ISBN 13 :
Total Pages : 200 pages
Book Rating : 4.:/5 (13 download)

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Book Synopsis Aluminosilicate Dissolution and Silicate Carbonation During Geologic CO2 Sequestration by : Yujia Min

Download or read book Aluminosilicate Dissolution and Silicate Carbonation During Geologic CO2 Sequestration written by Yujia Min and published by . This book was released on 2017 with total page 200 pages. Available in PDF, EPUB and Kindle. Book excerpt: Geologic CO2 sequestration (GCS) is considered a promising method to reduce anthropogenic CO2 emission. Assessing the supercritical CO2 (scCO2)--gas or liquid phase water (g, l)-mineral interactions is critical to evaluating the viability of GCS processes. This work contributes to our understanding of geochemical reactions at CO2--water (g, l)-mineral interfaces, by investigating the dissolution of aluminosilicates in CO2-acidified water (l). Plagioclase and biotite were chosen as model minerals in reservoir rock and caprock, respectively. To elucidate the effects of brine chemistry, first, the influences of cations in brine including Na, Ca, and K, have been investigated. In addition to the cations, the effects of abundant anions including sulfate and oxalate were also examined. Besides the reactions in aqueous phase, we also examine the carbonation of silicates in water (g)-bearing supercritical CO2 (scCO2) under conditions relevant to GCS. For the metal carbonation, in particular, the effects of particle sizes, water, temperature, and pressure on the carbonation of wollastonite were systematically examined.For understanding the cations effects in brine, the impacts of Na concentrations up to 4 M on the dissolution of plagioclase and biotite were examined. High concentrations of Na significantly inhibited plagioclase dissolution by competing adsorption with proton and suppressing proton-promoted dissolution. Ca has a similar effect to Na, and their effects did not suppress each other when Na and Ca co-existed. For biotite, the inhibition effects of Na coupled with an enhancing effect due to ion exchange reaction between Na and interlayer K, which cracked the basal surfaces of biotite. The K in aqueous phase significantly inhibited the dissolution. If the biotite is equilibrated with NaCl solutions initially, the biotite dissolved faster than the original biotite and the dissolution was inhibited by Na and K in brine. The outcomes improve our current knowledge of silicates dissolution to the high salinity conditions in subsurface environments.In addition to cations, the role of anions in geochemical reactions in subsurfaces are important. This study investigated the anion effects by studying sulfate and oxalate. Sulfate formed monodentate surface complexes with the Al sites on plagioclase surface and enhanced the dissolution. Oxalate was also found to enhance the plagioclase dissolution. Co-existing oxalate and sulfate suppressed the effects of sulfate on plagioclase dissolution. This information provides useful insights for understanding the roles of sulfate and organic compounds on the CO2--water-mineral interactions during scCO2 enhanced oil recovery. The results also aid in formulating a scientific guideline of the proper amount of SO2 co-injection with CO2.Water in GCS sites can exist in water-bearing scCO2 in addition to the aqueous phase in brine. Thus, it is important to understand the effects of water-bearing scCO2 on the carbonation of silicates. To address the gap between the nano- and micro-sized particles used in the laboratory to the large grains in field sites, we utilized wollastonite and investigated the effects of particle sizes on the wollastonite carbonation in water-bearing scCO2. The thickness of the reacted layer on the particle surfaces was found to be constant for different sized particles. The amorphous silica layer formed act as a diffusion barrier for water-bearing scCO2. In addition, the reaction extent was higher with more water, lower temperature, and higher pressure. Further, higher water saturation percentage and lower temperature can lead to the formation of more permeable amorphous silica layers.This thesis included the investigations of both liquid phase and vapor phase water that contacted with scCO2, and the effects of cations and anions on both formation and caprock minerals. The findings from this work improve our knowledge of the geochemical reactions at CO2--water-mineral interfaces, which will help us design a safer GCS operation and assess the impacts of GCS on the environmental safety and quality.

Reactive Transport Modeling of Cap Rock Integrity During Natural and Engineered CO2 Storage

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Publisher :
ISBN 13 :
Total Pages : 27 pages
Book Rating : 4.:/5 (873 download)

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Book Synopsis Reactive Transport Modeling of Cap Rock Integrity During Natural and Engineered CO2 Storage by :

Download or read book Reactive Transport Modeling of Cap Rock Integrity During Natural and Engineered CO2 Storage written by and published by . This book was released on 2004 with total page 27 pages. Available in PDF, EPUB and Kindle. Book excerpt: Long-term cap rock integrity represents the single most important constraint on the long-term isolation performance of natural and engineered CO2 storage sites. CO2 influx that forms natural accumulations and CO2 injection for EOR/sequestration or saline-aquifer disposal both lead to concomitant geochemical alteration and geomechanical deformation of the cap rock, enhancing or degrading its seal integrity depending on the relative effectiveness of these interdependent processes. Using our reactive transport simulator (NUFT), supporting geochemical databases and software (GEMBOCHS, SUPCRT92), and distinct-element geomechanical model (LDEC), we have shown that influx-triggered mineral dissolution/precipitation reactions within typical shale cap rocks continuously reduce microfracture apertures, while pressure and effective-stress evolution first rapidly increase then slowly constrict them. For a given shale composition, the extent of geochemical enhancement is nearly independent of key reservoir properties (permeability and lateral continuity) that distinguish EOR/sequestration and saline-aquifer settings and CO2 influx parameters (rate, focality, and duration) that distinguish engineered disposal sites and natural accumulations, because these characteristics and parameters have negligible (indirect) impact on mineral dissolution/precipitation rates. In contrast, the extent of geomechanical degradation is highly dependent on these reservoir properties and influx parameters because they effectively dictate magnitude of the pressure perturbation; specifically, initial geomechanical degradation has been shown inversely proportional to reservoir permeability and lateral continuity and proportional to influx rate. Hence, while the extent of geochemical alteration is nearly independent of filling mode, that of geomechanical deformation is significantly more pronounced during engineered injection. This distinction limits the extent to which naturally-occurring CO2 reservoirs and engineered storage sites can be considered analogous. In addition, the pressure increase associated with CO2 accumulation in any compartmentalized system invariably results in net geomechanical aperture widening of cap-rock microfractures. This suggests that ultimate restoration of pre-influx hydrodynamic seal integrity--in both EOR/sequestration and natural accumulation settings--hinges on ultimate geochemical counterbalancing of this geomechanical effect. To explore this hypothesis, we have introduced a new conceptual framework that depicts such counterbalancing as a function of effective diffusion distance and reaction progress. This framework reveals that ultimate counterbalancing of geochemical and geomechanical effects is feasible, which suggests that shale cap rocks may in fact evolve into effective seals in both natural and engineered storage sites.

Geologic Carbon Sequestration

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Publisher : Springer
ISBN 13 : 3319270192
Total Pages : 336 pages
Book Rating : 4.3/5 (192 download)

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Book Synopsis Geologic Carbon Sequestration by : V. Vishal

Download or read book Geologic Carbon Sequestration written by V. Vishal and published by Springer. This book was released on 2016-05-11 with total page 336 pages. Available in PDF, EPUB and Kindle. Book excerpt: This exclusive compilation written by eminent experts from more than ten countries, outlines the processes and methods for geologic sequestration in different sinks. It discusses and highlights the details of individual storage types, including recent advances in the science and technology of carbon storage. The topic is of immense interest to geoscientists, reservoir engineers, environmentalists and researchers from the scientific and industrial communities working on the methodologies for carbon dioxide storage. Increasing concentrations of anthropogenic carbon dioxide in the atmosphere are often held responsible for the rising temperature of the globe. Geologic sequestration prevents atmospheric release of the waste greenhouse gases by storing them underground for geologically significant periods of time. The book addresses the need for an understanding of carbon reservoir characteristics and behavior. Other book volumes on carbon capture, utilization and storage (CCUS) attempt to cover the entire process of CCUS, but the topic of geologic sequestration is not discussed in detail. This book focuses on the recent trends and up-to-date information on different storage rock types, ranging from deep saline aquifers to coal to basaltic formations.

Examining Supercritical CO2 Dissolution Kinetics During Carbon Sequestration Through Column Experiments

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ISBN 13 :
Total Pages : 296 pages
Book Rating : 4.:/5 (756 download)

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Book Synopsis Examining Supercritical CO2 Dissolution Kinetics During Carbon Sequestration Through Column Experiments by : Molly Elizabeth Kent

Download or read book Examining Supercritical CO2 Dissolution Kinetics During Carbon Sequestration Through Column Experiments written by Molly Elizabeth Kent and published by . This book was released on 2011 with total page 296 pages. Available in PDF, EPUB and Kindle. Book excerpt: Carbon sequestration is a method of capturing and storing excess anthropogenic CO2 in the subsurface. When CO2 is injected, the temperature and pressure at depth turn it into a supercritical (SC) fluid, where density is that of a liquid, but viscosity and compressibility resemble a gas. Ultimately the SC CO2 is trapped at depth either by low permeability sealing layers, by reactions with minerals, or by dissolving into fluids. The injected CO2 is buoyant and initially exists as a non-aqueous hydrophobic layer floating on top of the subsurface brine, up against the upper sealing formation, but over time it will dissolve into the brine and potentially react with minerals. The details of that initial dissolution reaction, however, are only poorly understood, and I address three basic questions for this research: What is the fundamental kinetics of SC CO2 dissolution into water? How fast does dissolved CO2 diffuse away from the source point? And what geochemical conditions influence the dissolution rate? To answer these questions I employed a high pressure flow-through approach using a column packed with coarse quartz sand. The system was both pressure and temperature controlled to have either liquid or SC CO2 present, and was typically run at 100 Bar, 0.5 to 2.5 mls/min, and 28-60°C. After establishing the hydraulic parameters for the column using two conservative tracers (Br, As), injections (5 and 20 [mu]l) were made either as aqueous solutions equilibrated to high pressure CO2, or as pure liquid or SC CO2 into 0.1 mmol NaOH. For all experiments the pH of the system was monitored, and [CO2] over time was calculated from those data. For injections of brine with dissolved CO2, transport was conservative and was nearly identical to the conservative tracers. The CO2 quickly mixes in the column and does not react with the quartz. The liquid and SC CO2 injections, however, do not act conservatively, and have a very long tailing breakthrough curve that extends to tens of pore volumes. I hypothesize that the SC CO2 is becoming trapped as a droplet or many droplets in the pore spaces, and the long breakthrough tail is related either to the rate of dissolution into the aqueous phase, the diffusion of dissolved CO2 away from the phase boundary, or the reaction with the NaOH, limited to the narrow contact zones in the pore throats. Because of the speed at which acid-base reactions occur (nanosecond kinetics), I infer that the rate limiting step is either surface dissolution or diffusion. From plots of ln[CO2] v. time I obtained values for k, the specific rate of the dissolution reaction R=-k[CO2]. No trend for k was seen with respect to changes in temperature, but k did show a trend with respect to changing flow rate. k increased from an average value of 3.05x10−3 at 0.5 ml/min to an average value of 3.38x10−3 at 1.6 ml/min, and then held constant at the higher flow rates, up to 2.5 ml/min. I interpret these data to show that at low flow rates, the reaction is diffusion limited; the fluid nearest the contact zone becomes saturated with dissolved CO2. At higher flow rates, the fluid is moving fast enough that saturation cannot occur, and the kinetics of the dissolution reaction dominate. Simple geometric models indicate that the CO2/water interface is shaped like a spherical cap, indicating that the snapped-off CO2 is forming a meniscus in the pore throat, limiting the surface area across which dissolution can occur.

Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory

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ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (279 download)

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Book Synopsis Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory by :

Download or read book Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory written by and published by . This book was released on 1993 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory

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ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (777 download)

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Book Synopsis Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory by : S. L Brantley

Download or read book Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory written by S. L Brantley and published by . This book was released on 1993 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:

Co2 Sequestration By Ex-situ Mineral Carbonation

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Publisher : World Scientific
ISBN 13 : 1786341611
Total Pages : 193 pages
Book Rating : 4.7/5 (863 download)

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Book Synopsis Co2 Sequestration By Ex-situ Mineral Carbonation by : Aimaro Sanna

Download or read book Co2 Sequestration By Ex-situ Mineral Carbonation written by Aimaro Sanna and published by World Scientific. This book was released on 2016-12-22 with total page 193 pages. Available in PDF, EPUB and Kindle. Book excerpt: To meet human energy needs, the use of fossil fuels is set to continue well into the second half of the 21st century. In order to avoid irreversible climate change, carbon dioxide capture and storage (CCS) must be integrated into industrial processes. Mineral carbonation (MC) is increasingly seen as an effective technology solution for CCS of CO2. With the potential to sequester billions of tonnes per year, remarkable developments in mineral carbonation technology are taking place, particularly in USA, Australia and the European Union.This book brings together some of the world's leading experts in the field of sequestration to provide a critical assessment of progress to date. Chapters cover the resources available for MC, and also give a critical analysis of the technologies developed for sequestering carbon from industrial and power plants, including the use of the resultant carbonated product. The studies conclude with evaluation of key technical and economic obstacles which need to be addressed for future research, development and application. CO2 Sequestration by Ex-Situ Mineral Carbonation is essential reading for engineers, chemists and materials scientists in graduate or research positions, and for those interested in sustainability, the environment and ecology.

Roles of Nano- and Micro-scale Subsurface Geochemical Reactions on Environmentally Sustainable Geologic CO2 Sequestration

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ISBN 13 :
Total Pages : 269 pages
Book Rating : 4.:/5 (859 download)

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Book Synopsis Roles of Nano- and Micro-scale Subsurface Geochemical Reactions on Environmentally Sustainable Geologic CO2 Sequestration by : Yandi Hu

Download or read book Roles of Nano- and Micro-scale Subsurface Geochemical Reactions on Environmentally Sustainable Geologic CO2 Sequestration written by Yandi Hu and published by . This book was released on 2013 with total page 269 pages. Available in PDF, EPUB and Kindle. Book excerpt: Geologic CO2 sequestration (GCS) is a promising approach to reduce anthropogenic CO2 emissions into the atmosphere. At GCS sites, injected CO2 is kept in formation rock by an overlying low permeability caprock. During and after CO2 injection, geochemical reactions can affect the porosity, permeability, and pollutant transport in aquifers. Despite their importance, nano- and micro-scale subsurface geochemical reactions are far from well-understood. Clay mobilization has been reported to decrease aquifer permeability during water flooding, and clay minerals are abundant in caprock. Thus, we studied CO2-brine-clay interactions under varied conditions relevant to different GCS sites (at 35-95°C and under 35-120 atm CO2, in water, NaCl, MgCl2, or CaCl2 solutions). Biotite, Fe-bearing mica, was used as a model clay mineral. We observed numerous fibrous illite precipitates on mica after reaction for only 3 h, which had not been previously reported. A few hours later, the mica surface cracked and fibrous illite detached. The mobilization of fibrous illite can decrease the aquifer's permeability greatly and affect the safety and efficiency of GCS. Mechanisms related to ion exchange, mica swelling, and CO2 intercalation were explored. Oriented aggregation of illite nanoparticles forming the fibrous illite was directly observed, suggesting a new mechanism for fibrous illite formation. Interestingly, besides the pH effect, aqueous CO2 enhances mica cracking over N2. These findings can help to achieve safer subsurface operations. At GCS field sites, Fe concentration increased near the injection sites and originally adsorbed pollutants were released. As the brine flows, Fe re-precipitated because of pH increase. To better predict the fate and transport of aqueous pollutants, the nucleation and growth of Fe(III) (hydr)oxides were studied. New information about sizes and volumes of the Fe(III) (hydr)oxide nanoparticles precipitated in solution and on quartz, mica, and sapphire were provided using small angle X-ray scattering, in the presence of different ions (Al3+, Cl-, NO3-, and SO42- ). Using complementary techniques, the controlling mechanisms related to surface charge, bond formation, and interfacial energies were explored. These new findings can help better predict pollutant transport in aquifers not only at GCS sites, but also in managed aquifer recharge and acid mine drainage sites.

Advances in the Geological Storage of Carbon Dioxide

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Publisher : Springer Science & Business Media
ISBN 13 : 1402044712
Total Pages : 360 pages
Book Rating : 4.4/5 (2 download)

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Book Synopsis Advances in the Geological Storage of Carbon Dioxide by : S. Lombardi

Download or read book Advances in the Geological Storage of Carbon Dioxide written by S. Lombardi and published by Springer Science & Business Media. This book was released on 2006-01-02 with total page 360 pages. Available in PDF, EPUB and Kindle. Book excerpt: As is now generally accepted mankind’s burning of fossil fuels has resulted in the mass transfer of greenhouse gases to the atmosphere, a modification of the delicately-balanced global carbon cycle, and a measurable change in world-wide temperatures and climate. Although not the most powerful greenhouse gas, carbon dioxide (CO) drives climate 2 change due to the enormous volumes of this gas pumped into the atmosphere every day. Produced in almost equal parts by the transportation, industrial and energy-generating sectors, atmospheric CO concentrations have 2 increased by about 50% over the last 300 years, and according to some sources are predicted to increase by up to 200% over pre-industrial levels during the next 100 years. If we are to reverse this trend, in order to prevent significant environmental change in the future, action must be taken immediately. While reduced use of fossil fuels (through conservation, increased efficiency and expanded use of renewable energy sources) must be our ultimate goal, short to medium term solutions are needed which can make an impact today. Various types of CO storage techniques have been proposed to fill this 2 need, with the injection of this gas into deep geological reservoirs being one of the most promising. For example this approach has the potential to become a closed loop system, whereby underground energy resources are brought to surface, their energy extracted (via burning or hydrogen extraction), and the resulting by-products returned to the subsurface.

Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory

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Author :
Publisher :
ISBN 13 :
Total Pages : 232 pages
Book Rating : 4.:/5 (246 download)

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Book Synopsis Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory by : Susan Louise Brantley

Download or read book Geochemical Kinetics of Mineral-water Reactions in the Field and the Laboratory written by Susan Louise Brantley and published by . This book was released on 1993 with total page 232 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Geological Storage of CO2 – Long Term Security Aspects

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Author :
Publisher : Springer
ISBN 13 : 3319139304
Total Pages : 251 pages
Book Rating : 4.3/5 (191 download)

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Book Synopsis Geological Storage of CO2 – Long Term Security Aspects by : Axel Liebscher

Download or read book Geological Storage of CO2 – Long Term Security Aspects written by Axel Liebscher and published by Springer. This book was released on 2015-02-21 with total page 251 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book explores the industrial use of secure, permanent storage technologies for carbon dioxide (CO2), especially geological CO2 storage. Readers are invited to discover how this greenhouse gas could be spared from permanent release into the atmosphere through storage in deep rock formations. Themes explored here include CO2 reservoir management, caprock formation, bio-chemical processes and fluid migration. Particular attention is given to groundwater protection, the improvement of sensor technology, borehole seals and cement quality. A collaborative work by scientists and industrial partners, this volume presents original research, it investigates several aspects of innovative technologies for medium-term use and it includes a detailed risk analysis. Coal-based power generation, energy consuming industrial processes (such as steel and cement) and the burning of biomass all result in carbon dioxide. Those involved in such industries who are considering geological storage of CO2, as well as earth scientists and engineers will value this book and the innovative monitoring methods described. Researchers in the field of computer imaging and pattern recognition will also find something of interest in these chapters.