Oilfield Chemistry

本書為2018年度國家出版基金資助項目，充分吸收趙福麟教授等主編出版的中文版《油田化學》的精華，並融入作者團隊多年來積累的豐富基礎理論研究成果和先進應用技術成果，結合國內外各油田的實際開發特點，以及新時期對油田化學品實用、安全、環保的要求，從油氣鑽井、開採、集輸等過程中所涉及油田化學的基礎理論和技術問題着手，系統且深入地進行闡述，重點圍繞油田化學領域中的三次採油理論與技術的新進展、鑽井液和完井液開發技術、油水井處理劑以及油田化學工程面臨的問題，介紹生產過程中存在問題的化學本質和解決這些問題的優質高效的油田化學品及其作用機理，是一部全面反映國內外油田化學領域先進、成熟的基礎理論和技術水平的全英文著作。本書不僅可供國內外各油田的科技工作人員參考，也可供各石油高校的石油類專業學生，特別是國外留學生參考。

Oilfield Chemistry由中國石油大學出版社與施普林格·自然出版集團(Springer Group)合作出版。 ^[1] 

1.1.1 The Basic Tectonic Units and Basic Tectonic Sheets

1.1.2 The Basic Structure Layer

1.1.3 Concepts Derived from Repeating and Stacking of the Basic Structure Layers

1.2.1 Kaolinite

1.2.2 Montmorillonite

1.2.3 Illite

1.2.4 Chlorite

1.2. 5 Palygorskite and Sepiolite

1.2. 6 Mixed Crystal-Layered Clay Mineral

1.3.1 Electrical Property

1.3.2 Adsorptivity

1.3.3 Expansibility

1.3.4 Cohesion

2.1 Functions and Compositions of the Drilling Fluid

2.1.1 Functions of the Drilling Fluid

2.1 2 Compositions of Drilling Fluid

2.2 The Density of Drilling Fluid and Its Adjustment

2.3 The Acid-Base Property of Drilling Fluid and Its Control

2.4 The Filtration Property of Drilling Fluid and Its Control

2.4.1 The Filtration Property of Drilling Fluid

2.4.2 Control of the Filtration Property of Drilling Fluid

2.5 The Rheological Property of Drilling Fluid and Its Adjustment

2.5.1 Basic Concept

2.5.2 Rheological Models of Drilling Fluid

2.5.3 Modification of the Rheological Properties of Drilling Fluid

2.6 The Solid Phase and Its Content Control in Drilling Fluid

2.6.1 Solid Phase in Drilling Fluid

2.6.2 Control Method for Solid Content in Drilling Fluid

2.6.3 Drilling Fluid Flocculant

2.7 The Lubricity of Drilling Fluid and Its Improvement

2.7.1 Drilling Fluid Lubricity

2.7.2 Improvement of Drilling Fluid Lubrication

2.8.1 Borehole Wall Stability

2.8.2 Control Method for Borehole Wall Stability

2.8.3 Shale Inhibitor

2.9 The Sticking and Stuck-Freeing of Drilling Tool

2.10 The Leakage of Drilling Fluid and the Plugging of Adsorbent Formation

2.10.1 The Leakage of Drilling Fluid

2.10.2 The Plugging of Leakage Formation

2.11. 1 Water-Base Drilling Fluid

2.11.2 Oil-Base Drilling Fluid

2.11.3 Gas Drilling Fluid

3.1.1 Function of Cement Slurry

3.1.2 Composition of Cement Slurry

3.2 The Density of Cement Slurry and Its Adjustment

3.2.1 Density-Reducing Admixture for Cement Slurry

3.2.2 Density-Increasing Admixture for Cement Slurry

3.3 The Thickening of Cement Slurry and the Adjustment of Thickening Time

3.3.1 The Thickening of Cement Slurry

3.3.2 Adjustment of Cement Thickening Time

3.4 The Rheological Property of Cement Slurry and Its Adjustment

3.4.1 The Rheological Property of Cement Slurry

3.4.2 Adjustment of the Rheological Property of Cement Slurry

3.5 The Filtration Property of Cement Slurry and Its Control

3.5.1 The Filtration Property of Cement Slurry

3.5.2 The Control of the Filtrate Volume of Cement Slurry

3.6.1 Hemihydrate Gypsum

3.6.2 Aluminum Powder

3.6.3 Magnesium Oxide

3.8.1 Conventional Cement Slurry

3.8.2 Special Cement Slurry

4.1.1 Definition of Polymer Flooding

4.1.2 Polymers Used in Polymer Flooding

4.1.3 Thickening Ability of Polymer to Water

4.1.4 Viscoelasticity of Polymer Solution

4.1.5 Retention of Polymer Molecules in Porous Media

4.1.6 Salt Sensitivity Effect of Polymer

4.1.7 Enhanced Oil Recovery Mechanisms of Polymer Flooding

4.1.8 Field Tests of Polymer Flooding

4.2.1 Definition of Surfactant Flooding

4.2.2 Surfactants Used in Surfactant Flooding

4.2.3 Active Water Flooding

4.2.4 Micellar Solution Flooding

4.2.5 Microemulsion Flooding

4.2.6 Foam Flooding

4.3.1 Definition of Alkaline Flooding

4.3.2 Alkalis Used in Alkaline Flooding

4.3.3 Reaction of Petroleum Acids and Alkalis

4.3.4 Comparison of Alkaline Flooding and Water Flooding

4.3.5 The Enhanced Oil Recovery Mechanism of Alkaline Flooding

4.4.1 Concept of Combination Flooding

4.4.2 Comparison of the Oil Displacement Effects of Some Floodings

4.4.3 Synergistic Effect Among the Displacement Components in Combination Flooding

4.4.4 Field Test of ASP Flooding

4.5.1Concept of Miscible Flooding and Miscible Phase Injectant

4.5.2 LPG Flooding

4.5.3 CO2Flooding

5.1.1 Concept of Profile Control

5.1.2 Importance of Profile Control

5.1.3 Profile Control Agent

5.1.4 Selection of Profile Control Agents

5.1.5 Field Test of Profile Control in Water Injection Wells

5.2.1 Concept of Water Shutoff in Oil Well

5.2.2 Importance of Water Shutoff

5.2.3 Water Shutoff Agent

5.2.4 Selection of Water Shutoff Agent

5.2.5 Field Tests of Water

6.2 Viscosity Reduction of Heavy Oil by Thermal Method

6.4 Viscosity Reduction of Heavy Oil by Emulsification

6.6 Viscosity Reduction of Heavy Oil by Hydrothermal Catalytic Pyrolysis

7.1.1 Hydrochloric Acid

7.1.2 Hydrofluoric Acid

7.1.3 Phosphoric Acid

7.1.4 Sulfuric Acid

7.1.5 Carbonic Acid

7.1.6 Aminosulfonic Acid

7.1.7 Low Molecular Carboxylic Acid

7.2.1 Retardant

7.2.2 Corrosion Inhibitor

7.2.3 Iron Stabilizer

7.2.4 Emulsion Inhibitor

7.2.5 Clay Stabilizer

7.2.6 Cleanup Additive

7.2.7 Sludge Inhibitor

7.2.8 Wettability Reversal Agent

7.2.9 Diverting Agent

Chapter 8 Fracturing Fluids and Fracturing Fluid Additives

8.1.1 Water-Based Fracturing Fluids

8.1.2 Oil-Based Fracturing Fluids

8.2 Fracturing Additives

8.2.1 Proppant

8.2.2 Breaker

8.2.3 Friction Reducer

8.2.4 Filtration Reducer

9.1.1 Nonorganic Cationic Polymer

9.1.2 Organic Cationic Polymer

9.2.1 Sand Control Procedures by Cementing

9.2.2 Cementing Agent

9.3.1 Sand Pack Cementing Method

9.3.2 Resin-Coated Sand Method

9.3.3 Cement Slurry Method

9.3.4 Cement Clinker Method

9.5 Sand Control by Wire Wrapped Screen Pipe with Gravel Packing

10.1.1 Wax Control with Wax Inhibitors

10.1.2 Wax Control by Altering Surface Properties of Oil Pipe

10.2.1 Oil-Based Wax Remover

10.2.2 Water-Based Wax Remover

10.2.3 Oil-in-Water Wax Remover

Chapter 11 Corrosion and Anti-corrosion ofBuried Pipeline

11.1.1 Soil

11.1.2 Soil Corrosion

11.2.1 Anti-corrosion Coating Method

11.2.2 Cathodic Protection Method

Chapter 12 Demulsification of the EmulsifiedCrude Oil and Defoaming of the Foaming Crude Oil

12.1.1 Types of Emulsified Crude Oil

12.1.2 Demulsification of W/O Emulsified Crude Oil

12.1.3 Demulsification of O/W Emulsified Crude Oil

12.2.1 Formation Mechanism of the Crude Oil Foam

12.2.2 Defoaming of the Foaming Crude Oil

Chapter 13 Pour Point Depression Transportation and Drag Reduction Transportation of Crude Oil

13.1 Pour Point Depression Transportation of Crude Oil

13.1.1 Classification of Crude Oil by Pour Point

13.1.2 Viscosity-Temperature Curve of High-Wax Crude Oil

13.1.3 Pour Point Depression Transportation of Crude Oil

13.2.1 Flow pattern and Its resistance

13.2.2 Drag Reduction Transportation of Crude Oil

14.1.1 The Necessity of the Dehydration of Natural Gas

14.1.2 Representations of Water Content in Natural Gas

14.1.3 Dehydration Methods of Natural Gas

14.2.1 Adsorption Method

14.2.2 Absorption Method

14.3 Inhibition of the Generation of Natural Gas Hydrate

14.3.1 Formation Conditions of Natural Gas Hydrate

14.3.2 The Structure of Natural Gas Hydrate

14.3.3 Inhibition Methods of the Generation of Natural Gas Hydrate

15.1.1 Cationic Polymers

15.1.2 Branched Surfactants

15.3 Flocculation of Suspended Solids in Wastewater

15.3.1 Coagulants

15.3.2 Coagulant Aids

15.4.1 Condensed Phosphates

15.4.2 Phosphonates

15.4.3 Amino Polycarboxylates

15.4.4 Surfactants

15.4.5 Polymers

15.5 Corrosion Inhibition of Wastewater

15.5.1 Oxidation Film Inhibitor

15.5.2 Precipitation Film Corrosion Inhibitor

15.5.3 Adsorption Film Corrosion Inhibitor

15.6 Sterilization of Wastewater

15.6.1 Oxidizing Bactericide

15.6.2 Non-oxidizing Bactericides

2021年7月，在國家新聞出版署組織開展第五屆中國出版政府獎評選表彰活動中獲圖書獎。 ^[2]