Underground Storage of CO2 and Energy 1st Edition by Michael Hou, Heping Xie, Jeoungseok Yoon 0415600499 9780415600491
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Product details:
ISBN 10: 0415600499
ISBN 13: 9780415600491
Author: Michael Z. Hou, Heping Xie, Jeoungseok Yoon
Of the known greenhouse gases, political attention to date has primarily focused on carbon dioxide (CO2), whereby it is assumed that underground storages of crude oil and natural gas through Carbon Capture and Storage (CCS) technology could contribute significantly to global climate protection. Underground Storage of CO2 and Energy covers many aspects of CO2 sequestration and its usage, as well as of underground storage of fossil and renewable energy sources, and is divided into 8 parts:
• Environmental and Energy Policy & Law for Underground Storage
• Geological Storage and Monitoring
• Enhanced Gas and Oil Recovery Using CO2 (CO2 -EGR/EOR)
• Rock Mechanical Behavior in Consideration of Dilatancy and Damage
• Underground Storage of Natural Gas and Oil
• Underground Storage of Wind Energy
• State-of-the-Art & New Developments in Gas Supply in Germany and China
• EOR & New Drilling Technology
Underground Storage of CO2 and Energy will be invaluable to academics, professionals and engineers, and to industries and governmental bodies active in the field of underground storage of fossil and renewable energy sources.
Table of contents:
Part 1: Environmental and Energy Policy & Law for Underground Storage
Chapter 1: Legal Framework for CCS in the EU and Germany
Chapter 2: Recent Trends in the German CCS Debate
Chapter 3: China’s CO2 Emissions Trading Status and the Relevant Legal Issues
Chapter 4: Enlightenment to China from Salt Mining Administration of Germany
Part 2: Geological Storage and Monitoring
Chapter 5: Progress Report on the First European On-shore CO2 Storage Site at Ketzin
Chapter 6: Experiences with Satellite Radar Monitoring
Chapter 7: Site Selection Criteria for CO2 Storage Sites
Chapter 8: Challenges and Barriers for Carbon Capture and Storage
Part 3: Enhanced Gas and Oil Recovery Using CO2 (CO2-EGR/EOR)
Chapter 9: THM:C Coupled Simulations of CO2 Sequestration
Chapter 10: Geological Integrity and Recovery of Initial State
Chapter 11: Measurement Strategies to Evaluate Well Integrity
Chapter 12: Stable Isotope and Dissolved Inorganic Carbon Sampling
Chapter 13: Feasibility of Improving Miscibility Pressure by Adding LPG
Chapter 14: Enhanced Heavy Oil Recovery by Steam and Gas Co-injection
Part 4: Rock Mechanical Behavior in Consideration of Dilatancy and Damage
Chapter 15: Hou’s Strength and Constitutive Models for Rock Salt
Chapter 16: Damage Evolution and Fractal Property of Salt Rock
Chapter 17: Effects of Shale Creep Behavior
Chapter 18: Fractal Study on AE Events in Granite
Chapter 19: Hydro-Mechanical Properties of Argillaceous Clay
Chapter 20: Pressure Induced Gas Breakthrough in Rock Salt
Chapter 21: Shock Loading Effects on Rock Salt
Chapter 22: Simulation Using Bonded Particle Model
Chapter 23: Time-dependent Constitutive Model Based on Caputo Derivative
Chapter 24: Failure Analysis of Multicrack Rock Masses
Part 5: Underground Storage of Natural Gas and Oil
Chapter 25: Status of Modeling Software for Salt Cavern Leaching
Chapter 26: Simulation of Gas Storage in Depleted Fractured Reservoir
Chapter 27: Natural Gas Storage in Salt Caverns
Chapter 28: New Developments in Europe’s Salt Cavern Projects
Chapter 29: Pre-calculation Method for Surface Subsidence
Chapter 30: Design for Caverns in Thin Bedded Salt and Mudstone
Chapter 31: Time-variant Reliability Analysis for Rocksalt Caverns
Chapter 32: Influence of Failure Probability on Caverns with Mudstone
Chapter 33: Design of Natural Gas Cavities in Rock Salt
Chapter 34: Echometric Surveying and 3D Geological Modeling
Chapter 35: Fuzzy Comprehensive Evaluation of Risk Factors
Part 6: Underground Storage of Wind Energy
Chapter 36: Energy Storage in Abandoned Mines
Chapter 37: Energy Storage in Salt Caverns
Chapter 38: CAES Caverns for Wind Energy Integration
Chapter 39: Geomechanical Aspects of CAES in Salt Caverns
Part 7: State-of-the-Art & New Developments in Gas Supply in Germany and China
Chapter 40: Status and Trend of Natural Gas Pipelines in China
Chapter 41: Model Networks for Gas Grid Distribution Systems
Chapter 42: Simulation of German and European Gas Transmission Systems
Part 8: Workshop in Daqing: EOR & New Drilling Technology
Chapter 43: Optimization for Cooling Transportation in Yushulin
Chapter 44: Energy Transfer in Underground Driving Process
Chapter 45: Enhanced Oil Recovery with High Concentration Polymer
Chapter 46: Remaining Oil Distribution after Polymer Flooding
Chapter 47: Efficiency of High Mass Concentration Polymer Flooding
Chapter 48: THM:C Models for Borehole Stability
Chapter 49: OCTG Evolution and Testing Requirements
Chapter 50: Rock Drillability Interpretation with Fractal Model
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Tags: Michael Hou, Heping Xie, Jeoungseok Yoon, Underground