Language
English
German
^M
Dutch
Spanish
Title:
Evaluation of oil-in-water emulsions with cationic–anionic surfactants mixtures for potential use in the oil industry
Source:
Colloids and Surfaces A-Physicochemical and Engineering Aspects [0927-7757] Schulz, Eduardo yr:2016
Basic
Sorry, no full text available...
Please use the document delivery service (see below)
Holding information
Holdings in library search engine
ALBERT
Document delivery
Request document via
Library/Bibliothek
Users interested in this article also expressed an interest in the following:
description
1.
Elkholy, Ayman E.
"Gemini surfactants as corrosion inhibitors for carbon steel."
Journal of molecular liquids
230 (2017): 395-407.
description
2.
Chen, M.
"The structure effect on the surface and interfacial properties of zwitterionic sulfobetaine surfactants for enhanced oil recovery."
RSC Advances
5.18 (2015): 13993-14001.
description
3.
Kundu, P.
"Modeling the steady-shear rheological behavior of dilute to highly concentrated oil-in-water (o/w) emulsions: Effect of temperature, oil volume fraction and anionic surfactant concentration."
Journal of petroleum science & engineering
129 (2015): 189-204.
description
4.
Ye, Z.
"Synthesis and characterization of a water-soluble sulfonates copolymer of acrylamide and N-allylbenzamide as enhanced oil recovery chemical."
Journal of applied polymer science
128.3 (2012): 2003-2011.
description
5.
Zhongbin Ye, Z.
"Synthesis and characterizations of hydrophobically associating water-soluble polymer with nonionic surfmer."
Journal of applied polymer science
133.11 (2016): 1-.
description
6.
Celis, M.-T. T.
"Effect of Emulsifier Type on the Characterization of O/W Emulsions Using a Spectroscopy Technique."
Journal of dispersion science and technology
37.4 (2016): 512-518.
description
7.
McClements, L.
"Fabrication, stability and efficacy of dual-component antimicrobial nanoemulsions: Essential oil (thyme oil) and cationic surfactant (lauric arginate)."
Food chemistry
172: 298-304.
description
8.
Pei, H.
"Effect of polymer on the interaction of alkali with heavy oil and its use in improving oil recovery."
Colloids and surfaces. A, Physicochemical and engineering aspects
446 (2014): 57-64.
description
9.
ShamsiJazeyi, H.
"Polymer-coated nanoparticles for enhanced oil recovery."
Journal of applied polymer science
131.15 (2014): 40576-.
description
10.
Morinaga, H.
"Controlled polymerization of epoxides: Metal-free ring-opening polymerization of glycidyl phenyl ether initiated by tetra-n-butylammonium fluoride in the presence of protic compounds."
Journal of polymer science. Part A, Polymer chemistry
49.24 (2011): 5210-5216.
description
11.
Wever, D.A.Z. Z.
"Polymers for enhanced oil recovery: A paradigm for structure-property relationship in aqueous solution."
Progress in polymer science
36.11 (2011): 1558-1628.
description
12.
Krieger, I.M. M.
"Rheology of monodisperse lattices."
Advances in colloid and interface science
3.2 (1972): 111-36.
View More...
View Less...
Select All
Clear All
Save Citations
Select Format
ProCite
EndNote
Reference Manager
RefWorks
Submit citation export
Advanced
Author
Other articles by this author? -- in
GeoRef
author:
Schulz, Eduardo N
Ambrusi, Rubén E
Miraglia, Daniela B
García, Silvana G
Rodriguez, José L
Schulz, Pablo C
last name
initials
Other articles by this author? -- in
Online Contents Geosciences
author:
Schulz, Eduardo N
Ambrusi, Rubén E
Miraglia, Daniela B
García, Silvana G
Rodriguez, José L
Schulz, Pablo C
last name
initials
Other articles by this author? -- using
Web of Science
author:
Schulz, Eduardo N
Ambrusi, Rubén E
Miraglia, Daniela B
García, Silvana G
Rodriguez, José L
Schulz, Pablo C
last name
initials
Web Search
Find related information in
a Web Search Engine
Excite
Google
HotBot
Ixquick
ZOO
Ask
Yahoo!
Bing
Naver
Search Terms:
Search for related information in
Google Scholar
Article Title
Author Name
Journal Title
Other Search
Search Terms:
A service provided by the
Library of the Wissenschaftspark Albert Einstein
, Potsdam, Germany.
© 2005 SFX by Ex Libris Inc.