Author(s)

Junting Zhang^*, Meinan Wang, Pingzhi Gong, Zhicheng Yang, Xilin Liu

Bohai Oilfield Research Institute of CNOOC Ltd.-Tianjin Branch, Tianjin, China.

Based on the development of the offshore water drive reservoir, the determination of reasonable water injection of monolayer and single well affects the distribution of remaining oil and development effect of oil field water flooding, so this paper, using the grey correlation analysis method, studies the main factors influencing the dividing coefficient of water-injection and weight. This method takes into account the effective thickness, permeability, injection-production well spacing, the number of injection-production wells, and the direction of formation coefficient factors such as the influence of the dividing coefficient for injection. The formula for water-injection multi-factor controlled is established, at the same time, applying water injection formula of this article and the conventional on injection allocation of A-platform offshore injection wells. And the difference of single-well injection-allocation quantity in layers is analyzed. Based on a platform offshore, layers exist in the process of water flooding and the problems such as the contradiction between the layers, put forward the necessity of layered water injection through this article to determine water injection formula and injection allocation on a platform of injection wells by implementing effect which can be found. A platform for water flooding development of water cut under control, natural decline rate reduced to verify the reliability and practicability of the formula to determine injection in this paper. It has certain guiding significance to the offshore for the water-injection development oilfield.

Grey Correlation, Weight, Separated Layer Water Injection, Influencing Factors, Water Injection Formula

Zhang, J. , Wang, M. , Gong, P. , Yang, Z. and Liu, X. (2018) Study on Water Injection Formula by Grey Correlation Method for Offshore Water Flooding Reservoir. Journal of Geoscience and Environment Protection, 6, 1-11. doi: 10.4236/gep.2018.68001.