Laboratory evaluation and field trial of activation indigenous microbial displacements in the reservoirs after polymer flooding.
- Author:
Jianjun LE
;
Lulu BAI
;
Rui WANG
;
Menghua GUO
;
Jiyuan ZHANG
;
Zhaowei HOU
;
Xiaolin WU
- Publication Type:Journal Article
- MeSH:
Carbon Dioxide;
chemistry;
Carbon Isotopes;
analysis;
China;
Diphosphates;
chemistry;
Methane;
chemistry;
Oil and Gas Fields;
microbiology;
Polymers;
Water;
Water Microbiology
- From:
Chinese Journal of Biotechnology
2015;31(7):1129-1138
- CountryChina
- Language:Chinese
-
Abstract:
Most main oilfields in China have already entered a "double high" development stage (high water cut, high recovery degree). To further enhance oil recovery in reservoirs after polymer flooding (RAPFs), an efficient activator formulation for promoting metabolism of endogenous microorganism was studied by aerogenic experiments, physical simulation experiments, electron microscopy scanning and pyrophosphate sequencing. Results show that the activator could activate the endogenous microorganisms in the injected water and make the pressurized gas reach 2 MPa after 60 d static culture of the activator in a high pressure vessel. The oil recovery efficiency of natural core physical simulation flooding can be improved by more than 3.0% (OOIP) in RAPFs when injected 0.35 PV activator with 1.8% mass concentration, and a lot of growth and reproduction of activated endogenous microorganism in the core was observed by electron microscopy scanning. Field trial with 1 injector and 4 producers was carried out in the east of south II block of Sa Nan in December 2011. By monitoring four effective production wells, changes of carbon isotope δ13C (PDB) content of methane and carbon dioxide were -45 per thousand to -54 per thousand and 7 per thousand to 12 per thousand. Compared with east II of Sa Nan block, the oil amount increased by 35.9%, water cut stabled at 94%. The incremental oil was 5 957 t during the three and a half years, which provides an alternative approach for further improving oil recovery in similar reservoirs.
