Theory and Technology of Multiscale Dispersed Particle Gel for In-Depth Profile Control - Softcover

Dai, Caili; Zhao, Guang; You, Qing; Zhao, Mingwei; Liu, Yifei; Zhao, Fulin

 
9780323998499: Theory and Technology of Multiscale Dispersed Particle Gel for In-Depth Profile Control
Softcover
ISBN 10: 0323998496 ISBN 13: 9780323998499
Publisher: Elsevier, 2021

Synopsis

Theory and Technology of Multiscale Dispersed Particle Gel for in-depth Profile Control systematically introduces concepts surrounding preparation principles and methods of DPG particles. The whole preparation process can be divided into two major stages: bulk gel crosslinking reaction period and DPG particle preparation period. The effects of bulk gel strength, shearing time, shearing rate and bulk gel-water ratio on PDPG particles are also systematically analyzed. Zirconium bulk gel, phenolic resin bulk gel, and organic-inorganic cross-linked bulk gel with short gelation time on the ground are introduced, along with gelation properties, gelation influencing factors, thermal stability and applicable conditions.

This book systematically describes the theory and technology of multiscale dispersed particle gel which shows promise as an acceptable alternative to conventional water technologies needed for enhanced oil recovery in high water cut mature oilfields.

  • Systematically describes the theory and technology of multiscale dispersed particle gel
  • Shows the details of each technology and how easy it is to achieve industrial production of DPG (dispersed particle gel particles)
  • Presents technical achievements from 20 successful, established industrial production lines and 17 oilfields at home and abroad
  • Includes the development of three new technologies based on DPG particles

"synopsis" may belong to another edition of this title.

About the Authors

Caili Dai, China University of Petroleum (East China), Professor; qualifications and experience: enhanced oil recovery; profile control and water shut off; gel treatment; steam channel profile control; fracturing fluid research.

Guang Zhao, China University of Petroleum (East China), Associate Professor; qualifications and experience: enhanced oil recovery; profile control and water shut off; gel treatment; steam channel profile control.

Qing You, China University of Geosciences, Professor; qualifications and experience: enhanced oil recovery; profile control and water shut off; gel treatment; tight oil fracturing and displacement.

Associate Professor, China University of Petroleum, China. Mingwei Zhao's research interests include enhanced oil recovery; clean fracturing fluid; supracritical CO2, the applications of nanofluids, polymers and surfactants in EOR

Post-doctor, China University of Petroleum, China. Research interests include enhanced oil recovery; profile control and water shut off; gel treatment; steam channeling sealing of heavy oil.

From the Back Cover

Theory and Technology of Multiscale Dispersed Particle Gel for In-Depth Profile Control systematically introduces the preparation principles and methods of DPG particles: an innovative technology that overcomes the drawbacks of traditional polymer gel in enhancing oil recovery in high water cut mature oilfields. The book fully covers the industrialized production process of DPG particles based on the successful lines established in China, outlining how these can be established in even complex construction environments such as the desert or sea.

Specifically, three new technologies based on multiscale DPG particles, a soft heterogeneous compound flooding system, DPG strengthened polymer/surfactant combination flooding system, and three-phase foam, are detailed. The book also analyzes the in-depth profile control and displacement mechanism and synergy mechanism of these three systems.

This book provides petroleum scientists and engineers, researchers in EOR, graduate-level petroleum engineering students, oilfield development scientists, researchers in reservoir physics, and others a practical handbook on this new technology.

"About this title" may belong to another edition of this title.

Publisher
Elsevier
Publication date
2021
Language
English
ISBN 10 
0323998496
ISBN 13 
9780323998499
Binding
Paperback
Number of pages
366