Distributed fiber-optic sensing, a game-changing technology, has been successfully applied
in monitoring hydraulic fracturing treatments. The cross-well fiber-optic strain/strain-rate …

Low‐frequency distributed acoustic sensing (LF‐DAS) is a recent technology that utilizes
fiber‐optic cables as a distributed sensor array to monitor strain changes in the subsurface …

Low-frequency distributed acoustic sensing (LF-DAS) has recently received much attention
for its ability to monitor fracture propagation at offset wells. Hydraulic Fracture Test Site-2 …

The Duvernay Formation in Canada is one of the major oil and gas source formations in the
Western Canadian Sedimentary Basin, located at its deepest point. While it demonstrates …

In recent years, the development of distributed acoustic sensing (DAS) technology has
enabled direct monitoring of subsurface strain during hydraulic fracturing (HF) operations …

Considering the high construction cost of horizontal adjacent well monitoring and the lack of
vertical adjacent well fiber optic for obtaining fracturing information, this paper proposes the …

Understanding fracture height growth is critical for optimizing hydraulic fracture treatments
and field development. In recent years, Low-Frequency Distributed Acoustic Sensing (LF …

The real-time monitoring of fracture propagation during hydraulic fracturing is crucial for
obtaining a deeper understanding of fracture morphology and optimizing hydraulic fracture …

Characterizing the fluid-driven fracture-tip advancing process presents a significant
challenge due to the difficulty of replicating real-world conditions in laboratory experiments …

Distributed fiber-optic (FO) strain measurements have become a widely used method for
monitoring and diagnosing far-field strain induced during hydraulic fracturing (HF). However …