Summary
Reusing flowback water and produced water from active wells becomes more and
more important in today's oil and gas operations to control surface water
volumes in order to keep surface water-disposal costs (reinjection or trucking
off the premises) to a minimum, especially in operations that do not require
secondary-lift support. However, reusing untreated produced and flowback water
in workover and completion operations can promote bacteria growth both above
and below ground.
Water produced from oil and gas wells is a perfect environment for
sulfate-reducing bacteria (SRB) and certain types of acid-forming bacteria
(AFB) because of its anaerobic nature [less than 2 ppm (O2) content]
and high nutrients content (e.g., organics, free iron). Reuse of water
introduces enough oxygen through regular pumping operations to allow aerobic
bacteria to grow mostly slime-forming bacteria (SFB) and other species of AFB.
The oxygen content is high enough for aerobic bacteria to grow but is too low
to kill anaerobic bacteria. The oxygen content will cause the anaerobic
bacteria to stay in a biostatic state that does not kill them, but prevents
them from multiplying.
As soon as the bacteria find an environment that is conducive to growth,
they will become active again and start multiplying. The anaerobic environment
in the formation is ideal for growth of bacteria such as SRB and certain types
of AFB. The aerobic environment of the wellbore is conducive for SFB and
certain types of AFB. The growth of SRB will not only lead to health and safety
(H&S) concerns because of increased sour-gas or hydrogen sulfide (e.g.,
H2S) production, but also to a slow souring of the formation. This
also increases operation expenses because of added corrosion (H2S
pitting, stress cracking, microbiologically influenced corrosion) in surface
and increases subsurface tubulars and related prevention expenses. Other
challenges in production can be related to AFB (pitting) and SFBs (emulsion
like materials may form).
Different methods can be applied to prevent bacteria growth and reduce
operational expenses related to corrosion prevention, remediation of corrosion
effects, and remediation of emulsified produced fluids. This paper will take a
closer look at the methods of aeration, chlorine-based applications (sodium
hypochlorite, calcium hypochlorite, and chlorine dioxide), and biocide
application.
The different methods will be compared through laboratory tests, actual
field application, and a rating system. The rating system incorporates
environmental, health, and safety (EH&S) concerns, operational
application/considerations, effectiveness of the method, and cost.
Each method will be discussed and the pros and cons presented. The pros and
cons will be supported by laboratory and field data. The conclusion portion of
the paper will discuss why and how the current method of application was chosen
and discuss future improvements and testing.
© 2010. Society of Petroleum Engineers
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History
- Original manuscript received:
21 February 2009
- Meeting paper published:
15 April 2009
- Revised manuscript received:
8 September 2009
- Manuscript approved:
30 December 2009
- Published online:
15 April 2010
- Version of record:
11 May 2010
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