Flow-Induced Corrosion : Fundamental Studies and Industry Experience

Title: Flow-Induced Corrosion : Fundamental Studies and Industry Experience
Author: D.C. Silverman, K.J. Kennelley, R.H. Hausler
ISBN: 1877914274 / 9781877914270
Format: Soft Cover
Pages: 460
Publisher: NACE
Year: 1991
Availability: Out of Stock

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This publication details papers presented at the CORROSION/90 symposium, “Flow-Induced Corrosion: Fundamental Studies and Industry Experience.” From these 27 papers, the corrosion scientist or engineer can develop an understanding of the technology that either has been used or is under development to predict the effects of fluid flow on corrosion routinely encountered in many environments.

Tab Article

Preface

Chapter 1 : Chemo-Mechanical Effects of Flow on Corrosion
Chapter 2 : Corrosion Under Flowing Conditions - An Overview and Model
Chapter 3 : CO2 Erosion Corrosion and Its Inhibition Under Extreme Shear Stress, I. Development of Methodology
Chapter 4 : Flow Loop Versus Rotating Probes - Correlations Between Experimental Results and Service Applications
Chapter 5 : Erosion Corrosion and Erosion of Various Materials in High Velocity Flows Containing Particles
Chapter 6 : Hydromechanical Measurements for Erosion Corrosion
Chapter 7 : Erosion-Corrosion Under Disturbed Flow Conditions in Slurry Pipelines
Chapter 8 : Velocity Effects in Flow Induced Corrosion
Chapter 9 : Computations of Erosion-Corrosion Processes in Separated Two-Phase Flows
Chapter 10 : Detailed Simulation of Gas Well Downhole Corrosion in Carbon Steel Tubulars
Chapter 11 : Sweet Corrosion of X-52 and L-80 Steels in Dynamic Oil-Brine Two-Phase Flows
Chapter 12 : Cell Evaluation of the Surface Velocity Distribution Within an Orifice
Chapter 13 : Flow Effects on Erosion Corrosion - An Engineering Approach
Chapter 14 : Arun Well Simulation Model Development
Chapter 15 : Laboratory Studies on Flow Induced Localized Corrosion in CO2/H2S Environments, I. Development of Test Methodology
Chapter 16 : Laboratory Studies on Flow Induced Localized Corrosion in CO2/H2S Environments, II. Parametric Study on the Effects of H2S, Condensate, Metallurgy, and Flowrate
Chapter 17 : Laboratory Studies on Flow Induced Localized Corrosion in CO2/H2S Environments, III. Chemical Corrosion Inhibition
Chapter 18 : A Review of Erosion Corrosion in Oil and Gas Production
Chapter 19 : Overview of Velocity Accelerated Corrosion Testing and Predictions
Chapter 20 : Rotating Cylinder Electrode - An Approach for Predicting Velocity
Chapter 21 : Inhibitor Evaluations Under Controlled Hydrodynamic Shear
Chapter 22 : Characterization of the Resistance to Erosion Corrosion of Copper/Nickel Alloys with Electrochemical Impedance Spectroscopy
Chapter 23 : The Corrosion of Copper Alloys After Short Time Loading by Solid Particles in Sea Water
Chapter 24 : The Effect of Velocity in H2SO4 HF Mixtures
Chapter 25 : The Effect of Fluid Flow on Mild Steel Passivation in an All-Organic Corrosion Inhibitor Treated Cooling Water Environment
Chapter 26 : The Influence of Hydrodynamics on the Corrosion of Cast and Carbon Steels in Concentrated Sulphuric Acid