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Lossy transmission line model of hydrofractured well dynamics
Tadeusz W. Patzek
*
, Asoke De
*
Corresponding author for this work
Research output
:
Contribution to conference
›
Paper
›
peer-review
3
Scopus citations
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Dive into the research topics of 'Lossy transmission line model of hydrofractured well dynamics'. Together they form a unique fingerprint.
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Keyphrases
Wellbore
100%
Hydrofracturing
100%
Lossy Transmission Line Model
100%
Wellhead
40%
Water Injection Well
40%
Stoneley Wave
40%
Fluid-filled
20%
System Dynamics
20%
Physical Properties
20%
Real-time Detection
20%
Transient Response
20%
Wave Source
20%
Fracture System
20%
Energy Transfer
20%
Subsidence
20%
Wave Mode
20%
Extremely Low Frequency
20%
Shallow Wells
20%
Wellhead Pressure
20%
Fracture Geometry
20%
Injected Fluids
20%
Waterflood
20%
Diatomite
20%
Fracture Size
20%
Low Permeability Reservoir
20%
Transmission Line Model
20%
Water Injector
20%
Wellbore Failure
20%
CO2 Injection Well
20%
Packer
20%
Steam Injection Well
20%
Pulse Signal
20%
Wellbore Dynamics
20%
Fundamental Wave
20%
Fracture Opening
20%
Fracture Dynamics
20%
Soft Rock
20%
Earth and Planetary Sciences
Transmission Line
100%
Wellhead
100%
Water Injection
66%
Stoneley Wave
66%
Real Time
33%
Transient Response
33%
Steam Injection
33%
Energy Transfer
33%
Subsidence
33%
Reservoir Permeability
33%
Very Low Frequency
33%
Fracture Geometry
33%
Diatomite
33%
Soft Rock
33%
Injector
33%
Engineering
Wellbore
100%
Lossy Transmission Line
100%
Wellhead
50%
Water Injection
33%
Demonstrates
33%
Transient Analysis
16%
Good Agreement
16%
Steam Injection
16%
Fracture System
16%
Electric Lines
16%
Injected Fluid
16%
Low Permeability Reservoirs
16%
Dynamic Fracture
16%
Fracture Opening
16%
Shallower
16%
Fracture Geometry
16%