Hydraulic Fracturing Chemicals and Fluids Technology (2nd Ed.)
Auteur : Fink Johannes
Petroleum engineers continue to need cost saving and environmentally sustainable products and methods for today?s hydraulic fracturing operations. Hydraulic Fracturing Chemicals and Fluid Technology, Second Edition, continues to deliver an easy-to-use manual of fluid formulations to meet specific job needs. Enhanced with more environmental aspects, this reference helps engineers and fluid specialists select and use the appropriate chemicals for any hydraulic fracturing job. New information concerning nanotechnology applications such as wellbore sealant and proppants are added to enhance operations in a sustainable manner while saving on production costs. Other updates include low recovery of fracturing water in shale, surfactants for waterless hydraulic fracturing, and expanded produced water treatment. Rounding out with updated references and patents for easy reference, Hydraulic Fracturing Chemicals and Fluid Technology, Second Edition, gives engineers a critical guide on selecting better products to boost productions while strengthening environmental enhancement and consideration.
- Gain insight with new information surrounding environmental contamination and produced water treatment methods
- Save on production costs with new nanoparticle-enhanced fluids and applications
- Eliminate guesswork with systematic approach to fluid technology organized by project need
Date de parution : 04-2020
Ouvrage de 354 p.
15x22.8 cm
Thèmes de Hydraulic Fracturing Chemicals and Fluids Technology :
Mots-clés :
Accelerated corrosion; Action of macroscopic particles; Aqueous fluids; Bacterial growth; Binodal curve; Biocides; Buffers; Conductivity in subterranean formations; Contaminated water reclaim; Controlled degradable fluid loss additives; Diverting materials; Environmental aspects; Environmentally safe fluids; Field studies; Flow promotion; Foamed fracturing fluids; Fracture stimulation; General aspects of fracturing; High viscosity formulations; Horizontal drilling; Kinetic inhibitors; Likelihood of a water contamination; Man-made contaminants; Measurement of fluid loss; Natural contaminants; Nature of scales; Oxygen scavengers; Performance studies; pH control; Recovery in flowback fluids; Salts of weak acids and weak bases; Spinodale curve; Surface-active agents; Theory of buffers; Thermodynamic inhibitors; Viscoelastic additives; Zirconium-crosslinked guar gums