Affiliation:
1. Dongsheng Jingong Petroleum Development co.LTD of SINOPEC
2. Southwest Petroleum University
Abstract
It is quite difficult for reservoir exploitation with worse barrier zone, especially in thin pay-zone, limiting hydraulic fracture height propagation. This paper described the theory of controlling the fracture height by creating artificial barrier, and net pressure distribution in the crack was determined by assuming the artificial barrier is with stress gradient. Then, stress intensity factors in the crack tip were gotten on the basis of fracture mechanics theory, and fracture propagation model was established in accordance with fracture criteria of tensile open crack. The established model also described the action of treatment pressure on the fracture height and influence of artificial barrier on the fracture height propagation. By contrasting the results, it is feasible for artificial barrier to limit the fracture height propagation, and this model also can be used in hydraulic fracturing design in the oilfield.
Publisher
Trans Tech Publications, Ltd.
Reference8 articles.
1. Yonghui Wang, Fuxiang Zhang: Application of controlling fracture height technique in hydraulically fracturing. Journal of Oil and Gas Test. 2006 14(4).
2. Simonson, E R and Abou-Sayed, A S.: Containment of Massive Hydraulic Fractures. SPE 6089, (1978).
3. Yongquan Hu, Shuquan Ren: Analysis of factors on hydraulically facture height. Journal of Daqin Petroleum Geology and Devlopment. 1996. No. 2.
4. Arp, M E and Hilton, R E: Case History Study of Fracture Height Containment in East Texas. SPE 14653, (1986).
5. Nguyen, H X and Larson, D B: Fracture Height Containment by Creating an Artificial Barrier with a New Additive. SPE 12061, (1983).
Cited by
3 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献