The
low oil productivity of tight oil reservoirs is mainly caused
by poor reservoir physical properties such as low porosity and permeability,
a small pore and throat ratio, and bad well connectivity, which lead
to bad water injection capability and rapid pressure decline for the
reservoir. In this paper, an enhanced oil recovery technique for tight
oil reservoirs is proposed by combination of horizontal well volume
fracturing and CO2 huff-n-puff to improve the reservoir
physical properties and increase the flow capability of crude oil.
In the initial reservoir development stage, the precise horizontal
well trajectory and reservoir volume fracturing scale are designed
by analyzing the distribution of sand body thickness and the oily
sedimentary facies. The micro-seismic tracking technique is also used
to monitor the fracture elongation. When the reservoir energy cannot
satisfy the economic limit of oil productivity, the CO2 huff-n-puff technique is applied to increase the reservoir energy
quickly. After the precise fracturing technique is used in tight oil
Block X, the average oil production rate of six fractured horizontal
wells increases by 5 ton (1 ton = 7.33 bbl) at the initial production
stage, and the effective oil production increase life lasts for 32
months. When the reservoir energy is supplemented using the CO2 huff-n-puff technique, the oil production rate of pilot experiment
well SP-1 increases from 1.9 to 12.8 ton with a cumulative oil increase
of 1333.8 ton.