A Study on Chemical Interactions Between Waste Fluid, Formation Water, and Host Rock During Deep Well Injection PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download A Study on Chemical Interactions Between Waste Fluid, Formation Water, and Host Rock During Deep Well Injection PDF full book. Access full book title A Study on Chemical Interactions Between Waste Fluid, Formation Water, and Host Rock During Deep Well Injection by . Download full books in PDF and EPUB format.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 5
Get Book Here
Book Description
A new disposal well was drilled in the vicinity of an injection well that had been in operation for 12 years. The drilling activities provided an opportunity to assess the fate and transport of waste products injected in the nearby well, and the impact, if any, on the host geologic formation. The origin of the fluid collected while drilling the new well and the interaction between injected waste and the formation were investigated using analyses of formation waters, waste, and formation minerals, by applying traditional graphical methods and sophisticated numerical models. This approach can be used to solve a wide range of geochemical problems related to deep well injection of waste. Trilinear Piper diagrams, Stiff diagrams, and correlation plots show that the chemical characteristics of recovered fluid at the new well are similar to those of formation water. The concentrations of most major constituents in the fluid appear diluted when compared to formation water sampled at other locations. This could be explained by mixing with waste, which is less saline than formation water. However, the waste injected near the new well consists primarily of ammonia and sulfate, and these waste constituents are not found at concentrations elevated enough to suggest that significant mixing of formation water with waste has occurred. To determine whether chemical interactions between injected waste and formation could explain the chemistry of fluid recovered from the new well, we simulated the chemical reaction between waste, formation water, and the formation rock by numerical modeling. Initial modeling calculations were done using a multicomponent geochemical reaction-path model to simulate fresh waste reacting with the formation. A more complex simulation coupling flow, transport, and reaction was then run using a multicomponent geochemical reactive transport model. These numerical simulations were carried out to calculate porosity changes and evaluate chemical processes resulting in mineral precipitation and dissolution. The simulations indicate that the waste injected in the vicinity of the new well is mildly reactive with the formation, and that there is a small porosity increase upon injection (approximately one to two percent) in the near-wellbore region. The simulations predict the precipitation of anhydrite, ammonium clay, and ammonium feldspar minerals. However, the precipitation of these minerals is not sufficient to account for the lower-than-expected sulfate and ammonia concentrations away from the injection well. This modeling work is preliminary in nature, and provides an example of the application of sophisticated modeling tools to problems involving deep-well injection of waste.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 5
Get Book Here
Book Description
A new disposal well was drilled in the vicinity of an injection well that had been in operation for 12 years. The drilling activities provided an opportunity to assess the fate and transport of waste products injected in the nearby well, and the impact, if any, on the host geologic formation. The origin of the fluid collected while drilling the new well and the interaction between injected waste and the formation were investigated using analyses of formation waters, waste, and formation minerals, by applying traditional graphical methods and sophisticated numerical models. This approach can be used to solve a wide range of geochemical problems related to deep well injection of waste. Trilinear Piper diagrams, Stiff diagrams, and correlation plots show that the chemical characteristics of recovered fluid at the new well are similar to those of formation water. The concentrations of most major constituents in the fluid appear diluted when compared to formation water sampled at other locations. This could be explained by mixing with waste, which is less saline than formation water. However, the waste injected near the new well consists primarily of ammonia and sulfate, and these waste constituents are not found at concentrations elevated enough to suggest that significant mixing of formation water with waste has occurred. To determine whether chemical interactions between injected waste and formation could explain the chemistry of fluid recovered from the new well, we simulated the chemical reaction between waste, formation water, and the formation rock by numerical modeling. Initial modeling calculations were done using a multicomponent geochemical reaction-path model to simulate fresh waste reacting with the formation. A more complex simulation coupling flow, transport, and reaction was then run using a multicomponent geochemical reactive transport model. These numerical simulations were carried out to calculate porosity changes and evaluate chemical processes resulting in mineral precipitation and dissolution. The simulations indicate that the waste injected in the vicinity of the new well is mildly reactive with the formation, and that there is a small porosity increase upon injection (approximately one to two percent) in the near-wellbore region. The simulations predict the precipitation of anhydrite, ammonium clay, and ammonium feldspar minerals. However, the precipitation of these minerals is not sufficient to account for the lower-than-expected sulfate and ammonia concentrations away from the injection well. This modeling work is preliminary in nature, and provides an example of the application of sophisticated modeling tools to problems involving deep-well injection of waste.
Author:
Publisher:
ISBN:
Category : Hazardous wastes
Languages : en
Pages : 106
Get Book Here
Book Description
Author: C-F. Tsang
Publisher: Elsevier
ISBN: 0080457908
Category : Science
Languages : en
Pages : 731
Get Book Here
Book Description
Chapters by a distinguished group of international authors on various aspects of Underground Injection Science and Technology are organized into seven sections addressing specific topics of interest. In the first section the chapters focus on the history of deep underground injection as well regulatory issues, future trends and risk analysis. The next section contains ten chapters dealing with well testing and hydrologic modeling. Section 3, consisting of five chapters, addresses various aspects of the chemical processes affecting the fate of the waste in the subsurface environment. Consideration is given here to reactions between the waste and the geologic medium, and reactions that take place within the waste stream itself. The remaining four sections deal with experience relating to injection of, respectively, liquid wastes, liquid radioactive wastes in Russia, slurried solids, and compressed carbon dioxide. Chapters in Section 4, cover a diverse range of other issues concerning the injection of liquid wastes including two that deal with induced seismicity. In Section 5, Russian scientists have contributed several chapters revealing their knowledge and experience of the deep injection disposal of high-level radioactive liquid processing waste. Section 6 consists of five chapters that cover the technology surrounding the injection disposal of waste slurries. Among the materials considered are drilling wastes, bone meal, and biosolids. Finally, four chapters in Section 7 deal with questions relating to carbon dioxide sequestration in deep sedimentary aquifers. This subject is particularly topical as nations grapple with the problem of controlling the buildup of carbon dioxide in the atmosphere.* Comprehensive coverage of the state of the art in underground injection science and technology* Emerging subsurface waste disposal technologies* International scope
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 108
Get Book Here
Book Description
Author: Lawrence K. Wang
Publisher: CRC Press
ISBN: 1420072315
Category : Science
Languages : en
Pages : 584
Get Book Here
Book Description
As the global nature of pollution becomes increasingly obvious, successful hazardous waste treatment programs must take a total environmental control approach that encompasses all areas of pollution control. With its focus on new developments in innovative and alternative environmental technology, design criteria, effluent standards, managerial dec
Author: Geological Survey (U.S.)
Publisher:
ISBN:
Category : Cartography
Languages : en
Pages : 814
Get Book Here
Book Description
Author: Geological Survey (U.S.)
Publisher:
ISBN:
Category : Geology
Languages : en
Pages : 408
Get Book Here
Book Description
Scientific notes and summaries of investigations in geology, hydrology, and related fields.
Author: Russell Boulding
Publisher:
ISBN:
Category : Hazardous substances
Languages : en
Pages : 204
Get Book Here
Book Description
Author: Ann S. Maest
Publisher:
ISBN:
Category : Geochemistry
Languages : en
Pages : 896
Get Book Here
Book Description
Author: J. A. Apps
Publisher:
ISBN:
Category : Nature
Languages : en
Pages : 816
Get Book Here
Book Description
Deep Injection Disposal of Hazardous and Industrial Waste is the first text to bring together scientific and engineering aspects of deep well injection techniques in light of increasingly stringent environmental regulation. This text considers important important aspects of modern deep well injection, including regulatory matters, the design and construction of injection wells, well testing, hydrologic modeling, and monitoring and predicting interactions of the waste with the rocks into which they are injected. The experiences of experts from many countries provide a global perspective on this environmentally important topic. One of the unique highlights of the book is the presentation of Russian research findings on the deep disposal of high-level liquid radioactive waste. Features: * Presents a global view of deep injection waste disposal. * Coverage emphasizes continued monitoring of injection sites. * Provides case studies from many countries. * Considers new technology for injecting solid waste as slurries. * First text to present Russian experiences with hazardous waste disposal.
