Menu
Search
Filters
Close
Menu

01244 STUDY OF MICROBIAL CONSORTIA ASSOCIATED TO CORROSION IN SEAWATER INJECTION SYSTEMS

Picture for 01244 STUDY OF MICROBIAL CONSORTIA ASSOCIATED
Available for download
Product Number: 51300-01244-SG
ISBN: 01244 2001 CP
Author: J. M. Romero, M. Amaya and L. Martinez.
$0.00
$20.00
$20.00
This paper is a study dedicated to identify aerobic bacteria, which influence MIC phenomena in pipelines used in a seawater injection system in the Gulf of Mexico. Fifteen aerobic bacterial strains were isolated from a bioprobe exposed during 45 days in a seawater pipeline. Three bacterial strains named IMP-M1, IMP-M5 and IMP-M9 were analyzed by 16S rRNA gene sequence analysis. Three different available gene databases were consulted to perform the phylogenetic characterization. The sequence analysis shows that Vibrio hollisae is the closest match to the IMP-M1 strain however with a 5.86 % of difference in the genetic code. The IMP-M5 strain shows 1.25 % of difference in the genetic code with Alteromonas macleodii while the IMP-M9 shows 8.10% of difference in its genetic code with thermohalophilum. The last results suggest that bacterial strains under study may be new species. Electrochemical noise measurements (localization parameter) show that the presence of bacterial strains increase the pitting phenomena. Keywords: Microbial Induced Corrosion, Aerobic Bacteria, Electrochemical Noise, Seawater Injection System, 16S rRNA gene sequence.
This paper is a study dedicated to identify aerobic bacteria, which influence MIC phenomena in pipelines used in a seawater injection system in the Gulf of Mexico. Fifteen aerobic bacterial strains were isolated from a bioprobe exposed during 45 days in a seawater pipeline. Three bacterial strains named IMP-M1, IMP-M5 and IMP-M9 were analyzed by 16S rRNA gene sequence analysis. Three different available gene databases were consulted to perform the phylogenetic characterization. The sequence analysis shows that Vibrio hollisae is the closest match to the IMP-M1 strain however with a 5.86 % of difference in the genetic code. The IMP-M5 strain shows 1.25 % of difference in the genetic code with Alteromonas macleodii while the IMP-M9 shows 8.10% of difference in its genetic code with thermohalophilum. The last results suggest that bacterial strains under study may be new species. Electrochemical noise measurements (localization parameter) show that the presence of bacterial strains increase the pitting phenomena. Keywords: Microbial Induced Corrosion, Aerobic Bacteria, Electrochemical Noise, Seawater Injection System, 16S rRNA gene sequence.
PRICE BREAKS - The more you buy, the more you save
Quantity
1+
5+
Price
$20.00
$20.00
Product tags
Also Purchased
Picture for 01010 CORROSION MONITORING AND CONTROL
Available for download

01010 CORROSION MONITORING AND CONTROL OF SEAWATER INJECTION SYSTEMS USING AN EXPERT SYSTEM APPROACH

Product Number: 51300-01010-SG
ISBN: 01010 2001 CP
Author: Cynthia Andrade, Walmar Baptista, Luis Augusto Correa, and Nair Domingues de Freitas
Publication Date: 2001
$20.00

This paper describes those strategies to minimize the risks associated with the seawater injection process and to reach production targets. Also, an expert system developed for seawater injection plants is introduced.
Picture for 01246 Study of Internal MIC in Pipelines
Available for download

01246 Study of Internal MIC in Pipelines of Sour Gas, Mixed with Formation Waters

Product Number: 51300-01246-SG
ISBN: 01246 2001 CP
Author: M. L. Mora-Mendoza, R. Garcia-Esquivel , A.A. Padilla-Viveros , L. Martinez a, M. Martinez-Bautista,
$20.00
Picture for 01245 SIMULATION OF MIC AT SPLASH ZONE AREAS
Available for download

01245 SIMULATION OF MIC AT SPLASH ZONE AREAS OF THE PAPER INDUSTRY

Product Number: 51300-01245-SG
ISBN: 01245 2001 CP
Author: Leena Carpen, Tero Hakkarainen, Laura Raaska, Kirsi Kujanpaa, Katri Mattila, P/iivi Uutela and Mirja
$20.00
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support