TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThis field test for Microbial EOR (MEOR) has been carried out in Fuyu oilfield, China since 1996 1,2 . Waterflooding by a patterned flood has been applied for over 20 years and various measures to decrease high water cut has been discussed for long time.The objectives of this MEOR project are to increase oil production from a water-flooded reservoir and to evaluate ability of microorganism (CJF-002) screened in our study. CJF-002 has an ability of producing insoluble polymer metabolically feeding on nutrient. This metabolic process is considered to be useful on plugging high permeable zones to reduce water channeling.Prior to the injection test of CJF-002 into the reservoir, core-flooding tests were carried out in order to evaluate the magnitude of permeability reduction due to plugging by the insoluble polymer. In the field tests, the following three different approaches were conducted:-Huff-n-puff test (single cycle) at production wells (1999), -First microbial treatment at injection wells (2000), and -Modified microbial treatment at injection wells (2001).In huff-n-puff test, CJF-002 and molasses were injected into 6 production wells. Among them, 4 wells indicated oil production increase and water cut decrease 4,5 . Based on these positive results of huff-n-puff test, the first microbial treatments were conducted at injection wells. In these treatments, cell count of CJF-002 and concentration of insoluble polymer were measured at the injection manifold and production wells to evaluate the metabolic activity of CJF-002 by colony forming unit (CFU) method and HPLC. Moreover, well logging such as Reservoir Saturation Tool (RST) and Water Flow Logging (WFL) and tracer tests were conducted before and after the microbial treatment to evaluate the effect of insoluble polymer on injection profile modification. As a result, microbial propagation was observed, however, the effect of injection profile modification has not been developed. The major reason was considered to be that sufficient propagation of CJF-002 was prevented by predominant population of other microbes propagated in the injection pipeline. From the unsuccessful result in 2000, injection method of CJF-002 and molasses was modified to prevent a propagation of other microbes and the modified microbial treatment was carried out in 2001. As a result, oil production in the test area increased more than twice in volume and the effect of plugging the high permeable zones was suspected from the results of tracer tests and preliminary reservoir simulation study.
TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThis field test for Microbial EOR (MEOR) has been carried out in Fuyu oilfield, China since 1996. Waterflooding by a patterned flood has been applied for over 20 years and various measures to decrease high water cut has been discussed for long time in Fuyu oilfield.The objectives of this MEOR project are to increase oil production from a waterflooded reservoir and to evaluate ability of microorganisms screened in our study. In this field test a microorganism named CJF-002 was applied to reservoir. CJF-002 has an ability of producing insoluble polymer metabolically on the condition that fed on nutrient. This microbial process has focused on plugging high permeable zones by produced insoluble polymer to reduce water channeling.Actually, microbial approach using CJF-002 has been performed by injecting into (1) production wells as huff-n-puff test (single cycle) for confirming polymer production potential and (2) injection wells as microbial treatment for water injection profile modification. In huff-n-puff test, CJF-002 and molasses were injected into 6 production wells. Among them, 4 wells indicated oil production increase and water cut decrease. Based on these possible results of huff-n-puff test, microbial treatment was conducted at injection wells for injection profile modification. In the treatment, cell count of CJF-002 and concentration of insoluble polymer in the sample taken at the manifold and some production wells were measured to investigate the metabolic activity of CJF-002 by colony forming unit (CFU) method and HPLC, respectively. Moreover, logging such as RST and WFL and tracer test were conducted before and after microbial treatment to evaluate the effect of microbial treatment. As a result, microbial propagation and metabolic activity was confirmed, however, the effect of injection profile modification has not been confirmed yet. This paper presents results and status of MEOR field test conducted in Fuyu oilfield, China.
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