Abstract
This paper describes a proven method to control bacteria growth in pipeline and process service fluids using irradiation technology. Service fluids are exposed to an irradiation source that disinfects the fluids and eliminates the need for biocide chemistry. The disinfection process can be used as a standalone process or in conjunction with traditional chemical treatments for many oilfield service applications.
The commissioning process for pipelines typically requires hydrostatic-pressure testing. The test fluid is usually treated for potential bacteria accumulation. Using the nonchemical process of irradiation to disinfect the test fluid eliminates the need for hundreds of gallons of bactericide. The service greatly reduces employee exposure to hazard-rated biocides and associated health- and safety-related issues, significantly improving overall environmental aspects of the operation.
Bacteria play an important, although usually detrimental, role in the production and transportation of hydrocarbons. The slime- forming version of bacteria can corrode surface piping and storage facilities. In addition, bacteria have been known to restrict reservoir porosity with "bio-plugging" or "bio-fouling." One anaerobic form of bacteria is sulfate reducing bacteria (SRB), which reduces the sulfate ion to sulfide. This can lead to the corrosion of flow-wetted metal components and to the formation of hydrogen sulfide (H2S) gas, which is extremely hazardous to humans and other animals. Fluids containing H2S can be damaging to production facilities not specifically designed to be H2S resistant.
The nonchemical alternative to biocide has cost and environmental advantages over traditional chemical treatments.