Creation of a PVT model for a reservoir under data uncertainty
- Autores: Dukessova N.K.1, Kunzharikova K.M.1, Abekesh G.Z.1, Bektas G.Z.1, Bissikenova L.M.1, Yeltay G.G.1
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Afiliações:
- KMG Engineering
- Edição: Volume 7, Nº 3 (2025)
- Páginas: 105-115
- Seção: Oil Research
- URL: https://journals.rcsi.science/2707-4226/article/view/320613
- DOI: https://doi.org/10.54859/kjogi108824
- ID: 320613
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Resumo
Background: PVT modeling is a critical step in reserve estimation and reservoir simulation of oil and gas fields. Accurate reproduction of fluid properties under different pressure–temperature conditions increases confidence in calculations and improves production forecasts. The accuracy of a PVT model largely depends on the quality of laboratory fluid data, while inconsistencies or errors in experimental results can reduce the reliability of calculated parameters.
Aim: To evaluate the quality and reliability of laboratory data on reservoir fluids from the Cretaceous horizons and to validate consistent PVT regions for model development.
Materials and methods: The quality and reliability of laboratory studies were evaluated using PVTsim software and methodological guidelines for validating reservoir fluid properties, where fluid composition and properties were analyzed based on equations of state.
Results: Analysis of bottomhole and recombined samples showed clear relationships between reservoir fluid properties. Several PVT regions with distinct characteristics were identified. Comparison of simulation results with laboratory data revealed discrepancies, particularly in the measured density of Albian horizon oil. Reservoir oil parameters were adjusted using the PVT model.
Conclusion: This approach removed unreliable laboratory data, provided a more accurate description of reservoir fluid properties, and updated calculation parameters to refine resource estimates.
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##article.viewOnOriginalSite##Sobre autores
Nadezhda Dukessova
KMG Engineering
Email: n.dukessova@kmge.kz
ORCID ID: 0009-0009-7198-731X
Cazaquistão, Astana
Klara Kunzharikova
KMG Engineering
Email: k.kunzharikova@kmge.kz
ORCID ID: 0009-0002-5121-0123
Cand. Sc. (Engineering)
Cazaquistão, AstanaGulbakyt Abekesh
KMG Engineering
Autor responsável pela correspondência
Email: g.abekesh@kmge.kz
ORCID ID: 0009-0006-2242-739X
Cazaquistão, Astana
Gaukhar Bektas
KMG Engineering
Email: g.bektas@kmge.kz
ORCID ID: 0000-0002-5991-7978
Cazaquistão, Astana
Laura Bissikenova
KMG Engineering
Email: l.bissikenova@kmge.kz
ORCID ID: 0009-0008-6294-7773
Cazaquistão, Astana
Gyuzel Yeltay
KMG Engineering
Email: g.yeltay@kmge.kz
ORCID ID: 0000-0003-3547-767X
Cazaquistão, Astana
Bibliografia
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- Brusilovskiy AI, Yushchenko TS. Two-phase deposits: Methodology approach to the identification of composition and PVT properties of reservoir hydrocarbon fluids using limited initial information. PROneft. Professionally about Oil. 2016;(1):68–74. (In Russ).
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- Bylinkin GP, Brusilovskiy AI. Novyy podkhod k otsenke stepeni nasyshchennosti plastovykh neftyanykh I gazokondensatnykh smesey I kriteriyev ikh phazovogo sostoyaniya. Russian Oil and Gas Geolody. 1991;9:14–18.
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