Abstract
ABSTRACTMany waterflooding oil fields, injecting water into an oil-bearing reservoir for pressure maintenance, are in their middle to late stages of development. To explore the geological conditions and improve oilfield recovery of the most important well group of the Hu 136 block, located on the border areas of three provinces (Henan, Shandong, and Hebei), Zhongyuan Oilfield, Sinopec, central China, a 14C cross-well tracer monitoring technology was developed and applied in monitoring the development status and recognize the heterogeneity of oil reservoirs. The tracer response in the production well was tracked, and the water drive speed, swept volume of the injection fluid were obtained. Finally, the reservoir heterogeneity characteristics, such as the dilution coefficient, porosity, permeability, and average pore-throat radius, were fitted according to the mathematical model of the heterogeneous multi-layer inter-well theory. The 14C-AMS technique developed in this work is expected to be a potential analytical method for evaluating underground reservoir characteristics and providing crucial scientific guidance for the mid to late oil field recovery process.
Publisher
Cambridge University Press (CUP)
Subject
General Earth and Planetary Sciences,Archeology
Reference14 articles.
1. Hu, SY , Zhang, LH , Luo, JX , Luo, GS , He, J. 2006. Study on large pore path in sandstone reservoirs-review and prospect. Special Oil and Gas Reservoirs 13(6):10–14.
2. Giant oil field decline rates and their influence on world oil production
3. Non-OPEC conventional oil: Production decline, supply outlook and key implications
4. Shen, H et al. 2019. Present status and application studies in GXNU-AMS Lab. The 8th East Asia Accelerator Mass Spectrometry Symposium, Nagoya, Japan.
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