Search
Filters
Close

Save 20% on select titles with code HIDDEN24 - Shop The Sale Now

51313-02299-Developing a Metric for Microbilogically Influenced Corrosion in Oilfield Water Handling Systems

Product Number: 51313-02299-SG
ISBN: 02299 2013 CP
Author: Moavin Islam
Publication Date: 2013
$0.00
$20.00
$20.00

Bacteria population density may provide a viable corrosion control metric for microbiologically influenced corrosion (MIC) in oilfield water handling systems so that the population of the different strains of bacteria such as sulfate reducing bacteria (SRB) acid producing bacteria (APB) [also classified as general aerobic bacteria (GAB)] and general anaerobic bacteria (GAnB) in any operating environment can be kept below a target envelop. Consider for example a system that has been experiencing increased corrosion over a period of time. If the trend of increasing corrosion rate versus time parallels the corresponding plot of all bacteria population density over that same period of time the general assumption is to ascribe the source of increased corrosion to increased bacteria population density. It is because of this empirical correlation that oil companies normally develop in-house guidelines for quantifying bacteria proliferation. There is however no generally accepted method for determining such guideline unambiguously. This paper provides a guidance to correlate the effects of bacteria population density on general and pitting corrosion rates with the goal of developing a self-consistent MIC performance indicator. It is based on microbiological and corrosion data obtained from various water handling systems at the Kuwait Oil Company.

Key words: Microbiologically Influenced Corrosion SRB APB GAB GAnB
 

Bacteria population density may provide a viable corrosion control metric for microbiologically influenced corrosion (MIC) in oilfield water handling systems so that the population of the different strains of bacteria such as sulfate reducing bacteria (SRB) acid producing bacteria (APB) [also classified as general aerobic bacteria (GAB)] and general anaerobic bacteria (GAnB) in any operating environment can be kept below a target envelop. Consider for example a system that has been experiencing increased corrosion over a period of time. If the trend of increasing corrosion rate versus time parallels the corresponding plot of all bacteria population density over that same period of time the general assumption is to ascribe the source of increased corrosion to increased bacteria population density. It is because of this empirical correlation that oil companies normally develop in-house guidelines for quantifying bacteria proliferation. There is however no generally accepted method for determining such guideline unambiguously. This paper provides a guidance to correlate the effects of bacteria population density on general and pitting corrosion rates with the goal of developing a self-consistent MIC performance indicator. It is based on microbiological and corrosion data obtained from various water handling systems at the Kuwait Oil Company.

Key words: Microbiologically Influenced Corrosion SRB APB GAB GAnB
 

Product tags
Also Purchased
Picture for Iron Carbide & Its Influence on Formation of Protective Iron Carbonate in CO2 Corr. of Mild Steel
Available for download

51313-02291-Iron Carbide & Its Influence on Formation of Protective Iron Carbonate in CO2 Corr. of Mild Steel

Product Number: 51313-02291-SG
ISBN: 02291 2013 CP
Author: Fernando Farelas
Publication Date: 2013
$20.00
Picture for An In-Situ Investigation of CO2 Flow-induced Corrosion and Erosion-Corrosion of UNS K03014 Pipeline
Available for download

51313-02305-An In-Situ Investigation of CO2 Flow-induced Corrosion and Erosion-Corrosion of UNS K03014 Pipeline Materials

Product Number: 51313-02305-SG
ISBN: 02305 2013 CP
Author: Jonathan Ukpai
Publication Date: 2013
$20.00
Picture for Effects of Rotating Cage Autoclave Design on Shear Stress and Flow Pattern
Available for download

51313-02294-Effects of Rotating Cage Autoclave Design on Shear Stress and Flow Pattern

Product Number: 51313-02294-SG
ISBN: 02294 2013 CP
Author: Amit Kumar
Publication Date: 2013
$20.00