关注
F. Farelas
F. Farelas
Savannah River National Laboratory
在 srnl.doe.gov 的电子邮件经过验证
标题
引用次数
引用次数
年份
Evolution of dissolution processes at the interface of carbon steel corroding in a CO2 environment studied by EIS
F Farelas, M Galicia, B Brown, S Nesic, H Castaneda
Corrosion Science 52 (2), 509-517, 2010
4132010
Carbon dioxide corrosion inhibition of carbon steels through bis-imidazoline and imidazoline compounds studied by EIS
F Farelas, A Ramirez
International Journal of Electrochemical Science 5 (6), 797-814, 2010
1422010
Iron Carbide and its Influence on the Formation of Protective Iron Carbonate in CO2 Corrosion of Mild Steel
F Farelas, B Brown, S Nesic
NACE CORROSION, NACE-2013-2291, 2013
962013
Corrosion behavior of API 5L X65 carbon steel under supercritical and liquid carbon dioxide phases in the presence of water and sulfur dioxide
F Farelas, YS Choi, S Nešić
Corrosion 69 (3), 243-250, 2013
782013
Corrosion Behavior of Deep Water Oil Production Tubing Material Under Supercritical CO2 Environment: Part 1—Effect of Pressure and Temperature
YS Choi, F Farelas, S Nešić, AAO Magalhães, C de Azevedo Andrade
Corrosion 70 (1), 38-47, 2014
662014
Role of Amines in the Mitigation of CO2 Top of the Line Corrosion
Z Belarbi, F Farelas, M Singer, S Nešić
Corrosion 72 (10), 1300-1310, 2016
572016
Thiols as volatile corrosion inhibitors for top of the line corrosion
Z Belarbi, M Singer, D Young, F Farelas, TN Vu, S Nesic
NACE CORROSION, NACE-2017-9096, 2017
492017
Decanethiol as a Corrosion Inhibitor for Carbon Steels Exposed to Aqueous CO2
Z Belarbi, JM Dominguez Olivo, F Farelas, M Singer, D Young, S Nešić
Corrosion 75 (10), 1246-1254, 2019
372019
Effects of CO2 phase change, SO2 content and flow on the corrosion of CO2 transmission pipeline steel
F Farelas, YS Choi, S Nesic
NACE CORROSION, NACE-2012-1322, 2012
342012
Development of a Zwitterionic Compound Derived from β-Amino Acid as a Green Inhibitor for CO2 Corrosive Environments
A Ramírez-Estrada, VY Mena-Cervantes, I Elizalde, A Manzo-Robledo, ...
ACS Sustainable Chemistry & Engineering 5 (11), 10396-10406, 2017
282017
Corrosion Behavior of Deep Water Oil Production Tubing Material under Supercritical CO2 Environment: Part II. Effect of Crude Oil and Flow
F Farelas, YS Choi, S Nesic, AAO Magalhães, CA Andrade
NACE CORROSION, NACE-2013-2381, 2013
262013
Effect of monoethylene glycol on sweet top of the line corrosion
S Guo, F Farelas, M Singer
NACE CORROSION, NACE-2016-7891, 2016
212016
Localized top of the line corrosion in marginally sour environments
N Yaakob, F Farelas, M Singer, S Nesic, D Young
NACE CORROSION, NACE-2016-7695, 2016
172016
A glycol/water co-condensation model to investigate the influence of monoethylene glycol on top-of-the-line corrosion
S Guo, F Farelas, M Singer
Corrosion 73 (6), 742-755, 2017
142017
Effect of operating parameters on the inhibition efficacy of decanethiol
Z Belarbi, F Farelas, D Young, M Singer, S Nesic
NACE CORROSION, NACE-2018-10823, 2018
82018
Investigation of the role of droplet transport in mitigating top of the line corrosion
N Jauseau, F Farelas, M Singer, S Nešić
Corrosion 74 (8), 873-885, 2018
62018
A FORMAÇÃO DA CAMADA PROTETORA DE FeCO3 E O CONTROLE DA CORROSÃO POR CO2 EM CONDIÇOES DE FLUXO TURBULENTO
LRM Ferreira, SM Klok, HA Ponte, F Farelas
Química Nova 39, 1027-1033, 2016
62016
Generation of H2S by crude fractions at high temperature
P Jin, F Farelas, W Robbins, G Bota, S Nesic
248th ACS National Meeting & Exposition, 544, 2014
62014
Review of volatile corrosion inhibitors evaluation methods and development of testing protocols
M Singer, F Farelas, Z Belarbi, S Punpruk, A Jenkins
NACE CORROSION, NACE-2019-13303, 2019
52019
Phosphate Esters Inhibitors in Naphthenic Acid Corrosion-An Experimental Evaluation
G Bota, P Jin, F Farelas, W Robbins
NACE CORROSION, NACE-2019-13491, 2019
42019
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