11 Papers
12 Citations
Yu Lu is an academic researcher from Southwest Petroleum University. The author has contributed to research in topics: Perforation (oil well) & Water injection (oil production). The author has an hindex of 5, co-authored 8 publications. Previous affiliations of Yu Lu include University of Calgary.
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Papers
The effect of completion strategy on fracture propagation from multiple cluster perforations in fossil hydrogen energy development
TL;DR: In this paper, the effect of a completion scheme on simultaneous fracture propagation is proposed, in which the coupling fluid flow and stress interaction is considered, and a fracture propagation uniform index model is used to optimize the completion strategy.
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Inversion of distributed temperature measurements to interpret the flow profile for a multistage fractured horizontal well in low-permeability gas reservoir
TL;DR: In this paper, a comprehensive inversion procedure combined with forward and inversion models is developed to interpret flow profiles for an MFHW in LPGR through the inversion of downhole distributed temperature measurements.
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Investigation of temperature behavior for multi-fractured horizontal well in low-permeability gas reservoir
TL;DR: In this article, a numerical temperature prediction model for a cemented multi-fractured horizontal well (MFHW) in a low-permeability gas reservoir (LPGR) during production is presented.
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Enhancement of multi-gas transport process in coalbed methane reservoir by oxidation treatment: Based on the change of the interaction force between coal matrix and gas molecules and knudsen number
TL;DR: In this paper , the effect of NClO on the pore size distribution of coal was calculated based on the NMR analysis, and the Knudsen number was calculated.
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Predicting the fracture initiation pressure for perforated water injection wells in fossil energy development
Yu Lu,Haitao Li,Cong Lu,Keliu Wu,Zhangxin Chen,Jing Li,Xiaoxu Tang,Xiaodong Huang,Mingdeng Tang +8 more
TL;DR: In this article, a modified method was presented to accurately predict the fracture initiation pressure (FIP), in which the thermal effect and plugging effect were considered; moreover, the stress around perforations was analyzed.
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