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Control of microbial souring of oil in a porous media column

Journal Article · · AAPG Bulletin
 [1]
  1. Hydrometrics, Inc., Helena, MT (United States)
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Oil reservoir souring is a major problem in industry due to H{sub 2}S toxicity, corrosion, plugging, and sulfide concentrations in natural gas. Reservoir souring was simulated in Berea sandstone columns and cores using native mixed microbial consortia from two oil fields. Similar souring activity was seen with both consortia growing as a biofilm in columns and cores at 60{degrees}C. Most of the souring activity occurred at the beginning of the columns. This simulated injection well souring, in which sulfate-reducing bacteria, sulfate and carbon sources, are all available at the well bore. Biomass and precipitated iron sulfide accumulated uniformly along the column length and caused plugging. More plugging was found in systems with lower initial permeabilities, and most of this plugging was due to iron sulfide precipitation. Several novel methods were discovered to inhibit souring in the columns and cores. Addition of 10 ppm nitrate stimulated both native consortia to quickly and completely inhibit active souring, and 5 ppm maintained the inhibition. Nitrite was produced at 80-100% of the nitrate level added through incomplete denitrification by nitrate-reducing bacteria, and nitrite was found to be the inhibitory agent. Direct continuous addition of 10-12 ppm nitrite also inhibited souring; but pulse addition was found to be more effective than continuous addition at the same total addition rate. In the 20-hour residence time of the reactor, 10-20% of the nitrite was consumed. Nitrite addition appeared to decrease plugging in the core system. Removal of nitrate or nitrite allowed souring to resume after it had been inhibited for as long as three months. Nitrite was a more effective and longer lasting inhibitor than was glutaraldehyde, a biocide routinely used in oil fields and other industrial applications.

Sponsoring Organization:
USDOE
OSTI ID:
272648
Report Number(s):
CONF-9607116--
Journal Information:
AAPG Bulletin, Journal Name: AAPG Bulletin Journal Issue: 6 Vol. 80; ISSN 0149-1423; ISSN AABUD2
Country of Publication:
United States
Language:
English

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Related Subjects

02 PETROLEUM
BIODEGRADATION
DRILL CORES
HYDROGEN SULFIDES
MICROORGANISMS
OIL FIELDS
ORIGIN
PETROLEUM
POROUS MATERIALS
RESERVOIR ENGINEERING
SOUR CRUDES