关键词: 高渗透砂岩油藏, 水驱, 注水时机, 模拟实验, 提高采收率

Abstract: A model holder for high-temperature and high-pressure resistance was designed and taken as a connection between outer pipelines and model. On the basis of the common microcosmic experiment system, a microcosmic experiment system for high-temperature and high-pressure resistance was developed and used to observe the dynamic behavior of bubble point, oil-gas distribution and oil-gas flow performance, and effect of free gas on oil and water flow during pressure declines. The oil-gas flow law during water flooding and crude oil containing gas at different pressure were analyzed. A macroscopic experiment system of high-temperature and high-pressure resistance was developed to analyze oil and gas productivity. The development effectiveness of water-flooding under different pressure was researched. The results showed that there were less gas points, and the gas point bulk was small, while reservoir pressure declined to about point pressure. Free gas is helpful to oil and water flow. Swept area of water-flooding was wider. If water injection is running before reservoir pressure declines to point pressure and reservoir pressure is keeping more than 87% of point pressure, the oilfield development will need less injection of water and get low total water cut and more recovery. The effectiveness of the research results have been proved in practice.

Key words: high-permeability sandstone reservoir, water drive, water-flooding time, simulation experiment, enhanced oil recovery