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Media, 128. Multi-Species and Multi-Phase Macroscopic
Transport Equations, 133. References, 138.
CHAPTER 8
Participate Processes in Porous Media 140
Summary, 140. Introduction, 140. Paniculate Processes, 141. Forces
Acting Upon Particles, 145. Rate Equations for Paniculate
Processes in Porous Matrix, 148. References, 160.
CHAPTER 9
Crystal Growth and Scale Formation
in Porous Media 164
Summary, 164. Introduction, 164. Inorganic Precipitation, 164.
Organic Precipitation, 165. Crystallization, 166. Grain Nucleation,
Growth, and Dissolution, 167. Crystallization Kinetics, 171.
Particle Growth and Dissolution in Solution, 174. Scale Formation
and Dissolution at the Pore Surface, 176. Crystal Surface Displace-
ment by Dissolution and Precipitation, 178. References, 178.
PART III
Formation Damage by Participate Processes
CHAPTER 10
Single-Phase Formation Damage by Fines
Migration and Clay Swelling 183
Summary, 183. Introduction, 183. The Thin Slice Algebraic
Model, 184. The Compartments-in-Series Ordinary Differential
Model, 197. Simplified Partial Differential Model, 199. The
Plugging-Nonplugging Parallel Pathways Partial Differential
Model, 221. Model Considering the Clayey Formation Swelling
and Indigeneous and External Particles, 208. Model Assisted
Analysis of Experimental Data, 213. References, 235.
CHAPTER 11
Two-Phase Formation Damage by Fines Migration ....238
Summary, 238. Introduction, 238. Formulation, 239. Fluid and
Species Transport, 241. Wettability Transformation and Interface
Transfer of Particles, 247. Particle Retention in Porous Media, 247.
Filter Cake Formation on the Injection Face, 251. Model Assisted
Analysis of Experimental Data, 251. References, 259.
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