UID:
almahu_9949697868402882
Format:
1 online resource (499 p.)
ISBN:
1-282-61783-4
,
9786612617836
,
0-08-086886-X
Series Statement:
Developments in petroleum science ; 28
Content:
Cementing is arguably the most important operation performed on a well. Well cementing technology is an amalgam of many interdependent scientific and engineering disciplines which are essential to achieve the primary goal of well cementing - zonal isolation. This textbook is a comprehensive and up-to-date reference concerning the application of these disciplines to cementing a well.``Well Cementing'' is envisioned as an upper-level university book, as well as a reference for practicing engineers and scientists. The first section of the book illustrates how the quality of the hydraul
Note:
Description based upon print version of record.
,
Front Cover; Well Cementing; Copyright Page; Contents; Preface; Introduction; Chapter 1. Implications of Cementing on Well Performance; 1-1 Introduction; 1-2 Zonal Isolation; 1-3 Cement-to-Pipe Bond and Hydraulic Fracturing; 1-5 Conclusion; 1-6 Acknowledgment; Chapter 2. Chemistry and Characterization of Portland Cement; 2-1 Introduction; 2-2 Chemical Notation; 2-3 Manufacturing of Portland Cement; 2-4 Hydration of the Clinker Phases; 2-5 Hydration of Portland Cements -The Multicomponent System; 2-6 Classification of Portland Cements; Chapter 3. Cement Additives and Mechanisms of Action
,
3-1 Introduction3-2 Variability of Additive Response; 3-3 Accelerators; 3-4 Retarders; 3-5 Extenders; 3-6 Weighting Agents; 3-7 Dispersants; 3-8 Fluid-Loss Control Agents; 3-9 Lost Circulation Prevention Agents; 3-10 Miscellaneous Cement Additives; 3-11 Summary; Chapter 4. Rheology of Well Cement Slurries; 4-1 Introduction; 4-2 Some Rheological Principles; 4-3 Equipment and Experimental Procedures; 4-4 Data Analysis and Rheological Models; 4-5 Time-Dependent Rheological Behavior of Cement Slurries; 4-6 Flow Behavior of Cement Slurries in the Wellbore Environment; 4-7 Conclusions
,
Chapter 5. Mud Removal5-1 Introduction; 5-2 Displacement Efficiency; 5-3 Well Preparation; 5-4 Mud Displacement; 5-5 Spacers And Washes; 5-6 Cement Mixing; 5-7 Conclusions; Chapter 6. Cement/Formation Interactions; 6-1 Fluid Loss-Introduction; 6-2 Dynamic Fluid Loss; 6-3 Static Fluid Loss; 6-4 Comparison Between Static and Dynamic Requirements on Fluid-Loss Control; 6-5 Fluid Loss During Remedial Cementing; 6-6 Formation Damage; 6-7 Fluid Loss-Conclusions; 6-8 Lost Circulation-Introduction; 6-9 Consequences of Lost Circulation; 6-10 Classification of Lost-Circulation Zones
,
6-11 Lost Circulation While Drilling6-12 Lost Circulation During Cementing; 6-13 Lost Circulation-Conclusions; Chapter 7. Special Cement Systems; 7-1 Introduction; 7-2 Thixotropic Cements; 7-3 Expansive Cement Systems; 7-4 Freeze-Protected Cements; 7-5 Salt Cement Systems; 7-6 Latex-Modified Cement Systems; 7-7 Cements for Corrosive Environments; 7-8 Cementitious Drilling Fluids; Chapter 8. Prevention of Annular Gas Migration; 8-1 Definition and Terminology; 8-2 Practical Consequences of Gas migration; 8-3 Physical Process of Gas Migration; 8-4 Gas Migration Testing
,
8-5 Gas Migration Solutions8-6 Gas Migration Prediction; 8-7 Conclusions; Chapter 9. Thermal Cements; 9-1 Introduction; 9-2 High-Temperature Chemistry of Portland Cement; 9-3 Class J Cement; 9-4 Silica-Lime Systems; 9-5 High-Alumina Cement; 9-6 Deep Oil and Gas Wells; 9-7 Geothermal Well Cementing; 9-8 Thermal Recovery Wells; 9-9 Conclusions; Chapter 10. Cementing Equipment and Casing Hardware; 10-1 Cementing Materials; 10-2 Basic Equipment; 10-3 Cementing Units; 10-4 Introduction to Casing Hardware; 10-5 Casing Hardware; 10-6 Remedial Cementing Tools; Chapter 11. Cement Job Design
,
11-1 Introduction
,
English
Additional Edition:
ISBN 0-444-88751-2
Language:
English
Bookmarklink