Sale!

(Ebook PDF) Geophysical Monitoring for Geologic Carbon Storage 1st edition by Lianjie Huang 111915684X 9781119156840 full chapters

Name: (Ebook PDF) Geophysical Monitoring for Geologic Carbon Storage 1st edition by Lianjie Huang 111915684X 9781119156840 full chapters
SKU: EB-47178048
Availability: InStock

Original price was: $50.00.Current price is: $25.00.

Geophysical Monitoring for Geologic Carbon Storage Lianjie Huang Digital Instant Download

Author(s): Lianjie Huang

ISBN(s): 9781119156833, 9781119156871, 1119156831, 1119156874

File Details: PDF, 49.63 MB

Year: 2022

Language: English

SKU: EB-47178048 Category: Earth Sciences - Geophysics Tag: Lianjie Huang

Description

Geophysical Monitoring for Geologic Carbon Storage 1st edition by Lianjie Huang – Ebook PDF Instant Download/DeliveryISBN: 111915684X, 9781119156840

Full download Geophysical Monitoring for Geologic Carbon Storage 1st edition after payment.

Product details:

ISBN-10 : 111915684X

ISBN-13 : 9781119156840

Author : Lianjie Huang

Storing carbon dioxide in underground geological formations is emerging as a promising technology to reduce carbon dioxide emissions in the atmosphere. A range of geophysical techniques can be deployed to remotely track carbon dioxide plumes and monitor changes in the subsurface, which is critical for ensuring for safe, long-term storage.

Geophysical Monitoring for Geologic Carbon Storage 1st Table of contents:

1 Evaluating Different Geophysical Monitoring Techniques for Geological Carbon Storage
1.1. INTRODUCTION
1.2. GEODETIC AND SURFACE MONITORING
1.3. SUBSURFACE SEISMIC MONITORING
1.4. SUBSURFACE NONSEISMIC MONITORING
1.5. CASE STUDIES OF GEOPHYSICAL MONITORING
ACKNOWLEDGMENTS
Part I: Geodetic and Surface Monitoring
2 Geodetic Monitoring of the Geological Storage ofGreenhouse Gas Emissions
2.1. INTRODUCTION
2.2. OBSERVATIONAL METHODS
2.3. DATA INTERPRETATION AND INVERSION METHODS
2.4. FIELD APPLICATIONS
2.5. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
3 Surface Monitoring, Verification, and Accounting (MVA) for Geologic Sequestration Storage
3.1. INTRODUCTION
3.2. CURRENT STATE OF THE ART
3.3. FREQUENCY MODULATED SPECTROSCOPY
3.4. FMS PHYSICS AND MODELING
3.5. RESULTS
3.6. CONCLUSION
ACKNOWLEDGMENTS
REFERENCES
Part II: Subsurface Seismic Monitoring
4 Optimal Design of Microseismic Monitoring Network for Cost‐Effective Monitoring of Geologic Carbon Storage
4.1. INTRODUCTION
4.2. METHOD
4.3. OPTIMAL DESIGN OF A SURFACE SEISMIC ARRAY
4.4. OPTIMAL DESIGN OF A BOREHOLE GEOPHONE ARRAY
4.5. DISCUSSION
4.6 CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
5 Seismic Response of Fractured Sandstone During Geological Sequestration of CO2
5.1. INTRODUCTION
5.2. EXPERIMENTAL SETUP
5.3. EXPERIMENTAL RESULTS
5.4. DISCUSSION
5.5. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
6 Dynamic Moduli and Attenuation
6.1. INTRODUCTION
6.2. DATA COLLECTION AND METHODOLOGY
6.3. LABORATORY CORE MEASUREMENTS
6.4. INTERPRETATION OF RESULTS
6.5. CONCLUSIONS
ACKNOWLEDGMENTS
APPENDIX
REFERENCES
7 Elastic‐Wave Sensitivity Propagation for Optimal Time‐LapseSeismic Survey Design
7.1. INTRODUCTION
7.2. METHODOLOGY
7.3. NUMERICAL RESULTS
7.4. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
8 Time‐Lapse Offset VSP Monitoring at the Aneth CO2 ‐EOR Field
8.1. INTRODUCTION
8.2. TIME‐LAPSE OFFSET VSP SURVEYS
8.3 RELOCATION OF OFFSET VSP SOURCES
8.4. BALANCING TIME‐LAPSE VSP DATA
8.5. DEPTH MIGRATION OF TIME‐LAPSE OFFSET VSP DATA
8.6. TIME‐LAPSE RESERVOIR CHANGE
8.7. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
9 Reverse Time Migration of Time‐Lapse Walkaway VSP Data for Monitoring CO2 Injection at the SACROC CO2 ‐EOR Field
9.1. INTRODUCTION
9.2. WALKAWAY VSP DATA RECORDED AT SACROC FIELD
9.3. STATICS CORRECTION AND AMPLITUDE BALANCING
9.4. RTM IMAGING
9.5. DISCUSSION
9.6. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
10 Least‐Squares Reverse‐Time Migration for Reservoir Imaging at the Cranfield CO2 ‐EOR Field
10.1. INTRODUCTION
10.2. LEAST‐SQUARES REVERSE‐TIME MIGRATION
10.3. LEAST‐SQUARES REVERSE‐TIME MIGRATION OF VSP DATA
10.4. DISCUSSION
10.5. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
11 Quantifying Changes of Subsurface Geophysical Properties Using Double‐Difference Seismic‐Waveform Inversion
11.1. INTRODUCTION
11.2. METHODOLOGY
11.3. DOUBLE‐DIFFERENCE WAVEFORM INVERSION WITH A PRIORI INFORMATION
11.4. DOUBLE‐DIFFERENCE WAVEFORM INVERSION WITH THE MODIFIED TOTAL‐VARIATION REGULARIZATION
11.5. RESULTS
11.6. CONCLUSION
ACKNOWLEDGMENTS
REFERENCES
12 Multicomponent Seismic Data and Joint Inversion
12.1. INTRODUCTION
12.2. BACKGROUND: USES AND LIMITATIONS OF MULTICOMPONENT SEISMIC DATA
12.3. INFORMATION CONTENT OF MULTICOMPONENT DATA
12.4. DIRECT DETECTION OF FRACTURING WITH SEISMIC DATA
12.5. JOINT INVERSION OF MULTICOMPONENT SEISMIC DATA FOR SUBSURFACE CHARACTERIZATION
12.6. KEVIN DOME CASE STUDY OF QUADRI‐JOINT INVERSION
12.7. APPLICATION OF JOINT INVERSION TO CHARACTERIZATION OF THE DUPEROW CO2‐BEARING ZONE AT KEVIN DOME
12.8. DISCUSSION
ACKNOWLEDGMENTS
REFERENCES
13 Tracking Subsurface Supercritical CO2 Using Advanced Reflection Seismic and Well Log‐Based Workflows Incorporating Fluid Density and Pore Pressure Effects
13.1. INTRODUCTION
13.2. PETROPHYSICAL MODEL
13.3. METHODS
13.4. RESULTS
13.5. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
Part III: Subsurface Nonseismic Monitoring
14 Monitoring Carbon Storage Sites With Time‐Lapse Gravity Surveys
14.1. INTRODUCTION
14.2. GRAVITY ANOMALIES INDUCED BY CO2 INJECTION
14.3. GRAVITY MEASUREMENTS
14.4. MODELING GRAVITY ANOMALY ASSOCIATED WITH A CO2 PLUME
14.5. DEPLOYMENT OF GRAVITY SURVEYS: COST AND DESIGN
14.6. TIME‐LAPSE GRAVITY MONITORING ON CCS SITES: REAL CASE STUDIES
14.7. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
15 Fundamentals of Electrical and Electromagnetic Techniques for CO2 Monitoring
15.1. INTRODUCTION
15.2. PHYSICAL PROPERTIES OF CARBON DIOXIDE (CO2)
15.3. ROCK PROPERTIES AND RESISTIVITY
15.4. BASIC PRINCIPLES OF ELECTRICAL AND ELECTROMAGNETIC TECHNIQUES
15.5. MODELS FOR SIMPLE RESISTIVE BODIES
15.6. ADVANTAGES AND LIMITATIONS OF ELECTRICAL AND EM TECHNIQUES IN DETECTING RESISTORS
15.7. MONITORING OF SHALLOW CO2 LEAKS
ACKNOWLEDGMENTS
REFERENCES
16 Monitoring Geologic Carbon Sequestration Using Electrical Resistivity Tomography
16.1. INTRODUCTION
16.2. ELECTRICAL PROPERTIES OF EARTH MATERIALS
16.3. PRINCIPLES OF ELECTRICAL RESISTIVITY TOMOGRAPHY
16.4. MONITORING SYSTEM DESIGN AND DEPLOYMENT
16.5. DATA PROCESSING
16.6. CASE STUDIES
16.7. FUTURE STUDIES
ACKNOWLEDGMENTS
REFERENCES
17 Monitoring of Large‐Scale CO2 Injection Using CSEM, Gravimetric, and Seismic AVO Data
17.1. INTRODUCTION
17.2 FORWARD MODELS
17.3. INVERSE PROBLEM
17.4 NUMERICAL EXPERIMENTS
17.5 CONCLUSIONS
APPENDIX
APPENDIX A REDUCED, SMOOTHED LEVEL‐SET REPRESENTATION
APPENDIX B INITIAL ENSEMBLE GENERATION
APPENDIX C SAMPLE MEAN AND COVARIANCE MATRIX
REFERENCES
18 Self‐Potential Monitoring for Geologic Carbon Dioxide Storage
18.1. INTRODUCTION
18.2. MECHANISMS OF SP GENERATION
18.3. ILLUSTRATIVE CALCULATIONS OF SP POSTPROCESSOR
18.4. FIELD OBSERVATIONS
18.5. CONCLUDING REMARKS
ACKNOWLEDGMENTS
REFERENCES
Part IV: Case Studies of Geophysical Monitoring
19 Microseismic Monitoring, Event Location, and Focal Mechanisms at the Illinois Basin–Decatur Project, Decatur, Illinois, USA
19.1. INTRODUCTION
19.2. GEOLOGIC SETTING AND SEISMIC HISTORY
19.3. MONITORING
19.4. SUBSURFACE ARRAY CALIBRATION
19.5. EVENT CHARACTERIZATION
19.6. MODEL INTEGRATION
19.7. DISCUSSION AND SUMMARY
ACKNOWLEDGMENTS
REFERENCES
20 Associated Storage With Enhanced Oil Recovery
20.1. INTRODUCTION
20.2. METHODS
20.3. SITE CHARACTERIZATION
20.4. MVA
20.5. SIMULATION AND MODELING
20.6. RISK ASSESSMENT
20.7. CO2 ACCOUNTING AND IMPACT TO OIL RECOVERY
20.8. CONCLUSIONS
ACKNOWLEDGMENTS
DISCLAIMER
REFERENCES
21 Testing Geophysical Methods for Assessing CO2 Migration at the SECARB Early Test, Cranfield, Mississippi, USA
21.1. INTRODUCTION
21.2. METHODS
21.3. RESULTS
21.4. DISCUSSION
21.5. CONCLUSIONS
REFERENCES
22 Toward Quantitative CO2 Monitoring at Sleipner, Norway
22.1. INTRODUCTION
22.2. GEOLOGICAL BACKGROUND AND MODELS
22.3. METHODOLOGY
22.4. SLEIPNER CASE STUDY
22.5. DISCUSSION
22.6. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
23 Geophysical Monitoring of CO2 Injection at Ketzin, Germany
23.1. INTRODUCTION
23.2. KETZIN SITE GEOLOGY AND CHARACTERIZATION
23.3. CO2 INJECTION OPERATION
23.4. PETROPHYSICAL MEASUREMENTS
23.5. GEOPHYSICAL MONITORING
23.6. DISCUSSION AND RECOMMENDATIONS
23.7. CONCLUSIONS
ACKNOWLEDGMENTS
REFERENCES
24 Geophysical Monitoring Techniques
24.1. SUMMARY OF ADVANTAGES AND LIMITATIONS
24.2. FUTURE RESEARCH DIRECTIONS

People also search for Geophysical Monitoring for Geologic Carbon Storage 1st:

the favor ac odyssey

the favor and the fall dramione

the favor a novel

the neighbor favor audiobook

the favor of a reply is requested

Tags:

Geophysical,Monitoring,Geologic Carbon Storage,Lianjie Huang

Sign up for Newsletter

(Ebook PDF) Geophysical Monitoring for Geologic Carbon Storage 1st edition by Lianjie Huang 111915684X 9781119156840 full chapters

Geophysical Monitoring for Geologic Carbon Storage 1st edition by Lianjie Huang – Ebook PDF Instant Download/DeliveryISBN: 111915684X, 9781119156840

Full download Geophysical Monitoring for Geologic Carbon Storage 1st edition after payment.

Product details:

Geophysical Monitoring for Geologic Carbon Storage 1st Table of contents:

People also search for Geophysical Monitoring for Geologic Carbon Storage 1st:

Tags:

You may also like…

Sign up for Newsletter

(Ebook PDF) Geophysical Monitoring for Geologic Carbon Storage 1st edition by Lianjie Huang 111915684X 9781119156840 full chapters

Geophysical Monitoring for Geologic Carbon Storage 1st edition by Lianjie Huang – Ebook PDF Instant Download/DeliveryISBN: 111915684X, 9781119156840

Full download Geophysical Monitoring for Geologic Carbon Storage 1st edition after payment.

Product details:

Geophysical Monitoring for Geologic Carbon Storage 1st Table of contents:

People also search for Geophysical Monitoring for Geologic Carbon Storage 1st:

Tags:

You may also like…

Login