Fracture Parameters Optimization and Seepage Characteristics of Fracture Horizontal Well in Daqing Peripheral Oilfield

CUI Maolei;WANG Yike;HUANG Xiaolei;YIN Fangchun;CHEN Zengshun;YANG Zhengming

Science & Technology Review ›› 2011, Vol. 29 ›› Issue (23) : 45-49.

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PDF(1849 KB)
Science & Technology Review ›› 2011, Vol. 29 ›› Issue (23) : 45-49. DOI: 10.3981/j.issn.1000-7857.2011.23.005
Articles

Fracture Parameters Optimization and Seepage Characteristics of Fracture Horizontal Well in Daqing Peripheral Oilfield

Author information -
1. Institution of Porous Flow & Mechanics, Chinese Academy of Sciences, Langfang 065007, Hebei Province, China;2. PetroChina Research Institute of Petroleum Exploration & Development-Langfang, Langfang 065007, Hebei Province, China;3. Xinli Oil Recovery Plant, Jilin Oilfield, China National Petroleum Corporation, Songyuan 138000, Jilin Province, China;4. Shuguang Recovery Plant, Liaohe Oilfield, China National Petroleum Corporation, Panjin 124114, Liaoning Province, China;5. Jiangsu Oilfield Mineral Industry Company, China Petrochemical Corporation, Yangzhou 225009, Jiangsu Province, China

Abstract

Horizontal well with fracture has become one of main methods to exploit ultra-low permeability. In order to gain the in-depth knowledge of the effect of fracture parameters and seepage pattern on horizontal well productivity, a nonlinear flow mode optimizing the fracture parameters has been established based the actual case of horizontal well exploitation in Daqing Peripheral Oilfield. The nonlinear flow theory is applied to the mode and the optimization results are provided under the constant condition of both horizon length and fracture length. The fracture number and fracture intervals have a significance impact on exploitation effect. The larger fracture number is, the more obvious the effect of fracture intervals is. However, as number of fractures exceeds three, the effect of fracture intervals is reducing. Contrast to the characteristics of nonlinear flow with that of Darcy flow, the former has the lower productivity, higher remaining oil saturation, and higher water cut as soon as water is produced. In the nonlinear flow model, pressure isopleths are concentrated, pressure gradient is higher, and energy consumption is larger around the area of wellbore and injection-production line. Horizontal well has bigger pressure gradient, however, it is smaller than that for vertical well. The permeability in nonlinear flow model is directly proportional to pressure gradient.

Key words

ultra-low permeability / horizontal well / fracture parameter / seepage characteristic / pressure gradient

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CUI Maolei;WANG Yike;HUANG Xiaolei;YIN Fangchun;CHEN Zengshun;YANG Zhengming. Fracture Parameters Optimization and Seepage Characteristics of Fracture Horizontal Well in Daqing Peripheral Oilfield[J]. Science & Technology Review, 2011, 29(23): 45-49 https://doi.org/10.3981/j.issn.1000-7857.2011.23.005
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