Modelling flowback as a transient two-phase depletion process

The existing rate transient models for fractured horizontal wells assume single-phase fluid flow. This assumption is violated in early times, when hydraulic fractures (HF) are filled with fracturing water and hydrocarbon. This calls for a model that captures the transient 2-phase (gas/oil + water) f...
Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Ezulike, Obinna Daniel [verfasserIn] Dehghanpour, Hassan

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2014

Schlagwörter:	Two-phase transient flowback analysis Post-flowback hydrocarbon forecast Hydraulic fracture half-length and pore volume of secondary fracture Dynamic relative permeability Application workflow

Umfang:	21

Übergeordnetes Werk:	Enthalten in: One-step solution-combustion synthesis of complex spinel titanate flake particles with enhanced lithium-storage properties - Li, Xue ELSEVIER, 2015transfer abstract, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:19 ; year:2014 ; pages:258-278 ; extent:21

Links:	Volltext

DOI / URN:	10.1016/j.jngse.2014.05.004

Katalog-ID:	ELV028075358

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520			\|a The existing rate transient models for fractured horizontal wells assume single-phase fluid flow. This assumption is violated in early times, when hydraulic fractures (HF) are filled with fracturing water and hydrocarbon. This calls for a model that captures the transient 2-phase (gas/oil + water) flow in HF, and can be used for history matching rate/pressure data measured during flowback operations. This paper extends the existing linear dual-porosity model (DPM) and develops a flowback analysis model (FAM) which accounts for transient 2-phase flow in HF.
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author	Ezulike, Obinna Daniel
spellingShingle	Ezulike, Obinna Daniel ddc 660 ddc 620 ddc 690 bkl 50.92 Elsevier Two-phase transient flowback analysis Elsevier Post-flowback hydrocarbon forecast Elsevier Hydraulic fracture half-length and pore volume of secondary fracture Elsevier Dynamic relative permeability Elsevier Application workflow Modelling flowback as a transient two-phase depletion process
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topic_title	660 660 DE-600 620 VZ 690 VZ 50.92 bkl Modelling flowback as a transient two-phase depletion process Two-phase transient flowback analysis Elsevier Post-flowback hydrocarbon forecast Elsevier Hydraulic fracture half-length and pore volume of secondary fracture Elsevier Dynamic relative permeability Elsevier Application workflow Elsevier
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title_sort	modelling flowback as a transient two-phase depletion process
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abstract	The existing rate transient models for fractured horizontal wells assume single-phase fluid flow. This assumption is violated in early times, when hydraulic fractures (HF) are filled with fracturing water and hydrocarbon. This calls for a model that captures the transient 2-phase (gas/oil + water) flow in HF, and can be used for history matching rate/pressure data measured during flowback operations. This paper extends the existing linear dual-porosity model (DPM) and develops a flowback analysis model (FAM) which accounts for transient 2-phase flow in HF.
abstractGer	The existing rate transient models for fractured horizontal wells assume single-phase fluid flow. This assumption is violated in early times, when hydraulic fractures (HF) are filled with fracturing water and hydrocarbon. This calls for a model that captures the transient 2-phase (gas/oil + water) flow in HF, and can be used for history matching rate/pressure data measured during flowback operations. This paper extends the existing linear dual-porosity model (DPM) and develops a flowback analysis model (FAM) which accounts for transient 2-phase flow in HF.
abstract_unstemmed	The existing rate transient models for fractured horizontal wells assume single-phase fluid flow. This assumption is violated in early times, when hydraulic fractures (HF) are filled with fracturing water and hydrocarbon. This calls for a model that captures the transient 2-phase (gas/oil + water) flow in HF, and can be used for history matching rate/pressure data measured during flowback operations. This paper extends the existing linear dual-porosity model (DPM) and develops a flowback analysis model (FAM) which accounts for transient 2-phase flow in HF.
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up_date	2024-07-06T17:52:44.653Z
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Modelling flowback as a transient two-phase depletion process

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