Robust hybrid machine learning algorithms for gas flow rates prediction through wellhead chokes in gas condensate fields; Fuel; Vol. 308
| Parent link: | Fuel Vol. 308.— 2021.— [121872, 10 p.] |
|---|---|
| Corporate Author: | |
| Other Authors: | , , , , , , |
| Summary: | Title screen Condensate reservoirs are the most challenging hydrocarbon reservoirs in the world. The behavior of condensate gas reservoirs regarding pressure and temperature variation is unique. Adjusting fluid flow rate through wellhead chokes of condensate gas wells is critical and challenging for reservoir management. Predicting this vital parameter is a big step for the development of condensate gas fields. In this study, a novel machine learning approach is developed to predict gas flow rate (Qg) from six input variables: temperature (T); upstream pressure (Pu); downstream pressure (Pd); gas gravity (?g); choke diameter (D64) and gas–liquid ratio (GLR). Due to the absence of accurate recombination methods for determining Qg, machine learning methods offer a functional alternative approach. Four hybrid machine learning (HML) algorithms are developed by integrating multiple extreme learning machine (MELM) and least squares support vector machine (LSSVM) with two optimization algorithms, the genetic algorithm (GA) and the particle swarm optimizer (PSO). The evaluation conducted on prediction performance and accuracy of the four HML models developed indicates that the MELM-PSO model has the highest Qg prediction accuracy achieving a root mean squared error (RMSE) of 2.8639 Mscf/d and a coefficient of determination (R2) of 0.9778 for a dataset of 1009 data records compiled from gas-condensate fields around Iran. Comparison of the prediction performance of the HML models developed with those of the previous empirical equations and artificial intelligence models reveals that the novel MELM-PSO model presents superior prediction efficiency and higher computational accuracy. Moreover, the Spearman correlation coefficient analysis performed demonstrates that D64 and GLR are the most influential variables in the gas flow rate for the large dataset evaluated in this study. Режим доступа: по договору с организацией-держателем ресурса |
| Language: | English |
| Published: |
2021
|
| Subjects: | |
| Online Access: | https://doi.org/10.1016/j.fuel.2021.121872 |
| Format: | Electronic Book Chapter |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=665478 |
Similar Items
Adaptive neuro-fuzzy algorithm applied to predict and control multi-phase flow rates through wellhead chokes; Flow Measurement and Instrumentation; Vol. 76
Published: (2020)
Published: (2020)
Prediction performance advantages of deep machine learning algorithms for two-phase flow rates through wellhead chokes; Journal of Petroleum Exploration and Production; Vol. ХХ, iss. XX
Published: (2021)
Published: (2021)
Predicting oil flow rate through orifice plate with robust machine learning algorithms; Flow Measurement and Instrumentation; Vol. 81
Published: (2021)
Published: (2021)
Hybrid machine learning algorithms to predict condensate viscosity in the near wellbore regions of gas condensate reservoirs; Journal of Natural Gas Science and Engineering; Vol. 95
Published: (2021)
Published: (2021)
Prediction of oil flow rate through orifice flow meters: Optimized machine-learning techniques; Measurement; Vol. 174
Published: (2021)
Published: (2021)
Machine Learning and Flow Assurance in Oil and Gas Production
Published: (2023)
Published: (2023)
Prediction of fracture density in a gas reservoir using robust computational approaches; Frontiers in Earth Science; Vol. 10
Published: (2022)
Published: (2022)
Distribution of Liquid Flow Rates in the Process of Bubbling with Gas Through Gas-Permeable Inserts; IOP Conference Series: Materials Science and Engineering; Vol. 142 : Innovative Technologies in Engineering
Published: (2016)
Published: (2016)
Physics of Gas-Liquid Flows
by: Hanratty T. J. Thomas
Published: (Cambridge, Cambridge University Press, 2013)
by: Hanratty T. J. Thomas
Published: (Cambridge, Cambridge University Press, 2013)
A robust hybrid near-real-time model for prediction of drilling fluids filtration; Engineering with Computers; Vol. 41
Published: (2025)
Published: (2025)
Novel hybrid machine learning optimizer algorithms to prediction of fracture density by petrophysical data; Journal of Petroleum Exploration and Production; Vol. 11, iss. 12
Published: (2021)
Published: (2021)
Predicting Formation Pore-Pressure from Well-Log Data with Hybrid Machine-Learning Optimization Algorithms; Natural Resources Research; Vol. ХХ, iss. XX
Published: (2021)
Published: (2021)
Natural Gas Hydrates in Flow Assurance
Published: (Amsterdam, Elsevier, 2011)
Published: (Amsterdam, Elsevier, 2011)
Permeability prediction of heterogeneous carbonate gas condensate reservoirs applying group method of data handling; Marine and Petroleum Geology; Vol. 139
Published: (2022)
Published: (2022)
Robust machine-learning model for prediction of carbon dioxide adsorption on metal-organic frameworks; Journal of Alloys and Compounds; Vol. 1010
Published: (2025)
Published: (2025)
Predicting shear wave velocity from conventional well logs with deep and hybrid machine learning algorithms; Journal of Petroleum Exploration and Production; Vol. 13, iss. 1
Published: (2023)
Published: (2023)
Evaporation Rate of a Liquid Layer Streamlined by Gas Flow in Minichannel; MATEC Web of Conferences; Vol. 91 : Smart Grids 2017
by: Orlova E. G. Evgeniya Georgievna
Published: (2017)
by: Orlova E. G. Evgeniya Georgievna
Published: (2017)
Measuring the Rate of Local Evaporation from the Liquid Surface under the Action of Gas Flow; Technical Physics Letters; Vol. 41, № 14
Published: (2015)
Published: (2015)
Investigation of gas flow influence on acoustic waves, propagating downstream and upstream through gas flow in a cylindrical duct; Russian Physics Journal; Vol. 68, iss. 2
Published: (2025)
Published: (2025)
A robust approach to pore pressure prediction applying petrophysical log data aided by machine learning techniques; Energy Reports; Vol. 8
Published: (2022)
Published: (2022)
Machine Learning for Predictive Analysis Proceedings of ICTIS 2020 /
Published: (2021)
Published: (2021)
Simulation of stabilization gas condensate process; Korus 2004; V. 2
by: Baramygina N. A.
Published: (2004)
by: Baramygina N. A.
Published: (2004)
Benchmarks and Hybrid Algorithms in Optimization and Applications
Published: (2023)
Published: (2023)
A geomechanical approach to casing collapse prediction in oil and gas wells aided by machine learning; Journal of Petroleum Science and Engineering; Vol. 196
Published: (2021)
Published: (2021)
The numerical research of volume condensation of natural gas; Перспективы развития фундаментальных наук
by: Tychengulova A. J.
Published: (2013)
by: Tychengulova A. J.
Published: (2013)
Mathematical modeling of gas and gas condensate preparation unit with dynamic mode of low-temperature separation; Science, Technology and Higher Education
Published: (2015)
Published: (2015)
The effect of the interface length on the evaporation rate of a horizontal liquid layer under a gas flow; Thermophysics and Aeromechanics; Vol. 27, iss. 1
Published: (2020)
Published: (2020)
Applications of Hybrid Metaheuristic Algorithms for Image Processing
Published: (2020)
Published: (2020)
Machine Learning Algorithms for Industrial Applications
Published: (2021)
Published: (2021)
Oil production rate prediction after treatment operations using machine-learning techniques; Проблемы геологии и освоения недр; Т. 2
by: Melnikov M. O. Maksim Olegovich
Published: (2022)
by: Melnikov M. O. Maksim Olegovich
Published: (2022)
Modes of gas and gas condensate preparation unit in low-temperature separation technology modeling; Petroleum & Coal; Vol. 56, iss. 2
Published: (2014)
Published: (2014)
Robust Machine Learning Predictive Models for Real-Time Determination of Confined Compressive Strength of Rock Using Mudlogging Data; Rock Mechanics and Rock Engineering; Vol. 57
Published: (2024)
Published: (2024)
Optimization Algorithms in Machine Learning A Meta-heuristics Perspective /
by: Das, Debashish, et al.
Published: (2025)
by: Das, Debashish, et al.
Published: (2025)
Machine learning algorithm for formation properties prediction based on well log data; Проблемы геологии и освоения недр; Т. 2
by: Kanaev I. S.
Published: (2020)
by: Kanaev I. S.
Published: (2020)
The Influence of Shielding Gas Flow Rate on the Transfer Frequency of Electrode Metals Drops; IOP Conference Series: Materials Science and Engineering; Vol. 142 : Innovative Technologies in Engineering
Published: (2016)
Published: (2016)
Hybrid Machine-Learning Model for Accurate Prediction of Filtration Volume in Water-Based Drilling Fluids; Applied Sciences; Vol. 14, iss. 19
Published: (2024)
Published: (2024)
Hybridized machine-learning for prompt prediction of rheology and filtration properties of water-based drilling fluids; Engineering Applications of Artificial Intelligence; Vol. 123
Published: (2023)
Published: (2023)
Predicting Inequality of Opportunity and Poverty in India Using Machine Learning
by: Mehta, Balwant Singh, et al.
Published: (2025)
by: Mehta, Balwant Singh, et al.
Published: (2025)
Robust Determination of Performance Loss Rate for Photovoltaic Systems; IEEE Sensors Letters; Vol. 8, iss. 9
by: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
Published: (2024)
by: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
Published: (2024)
Algorithms for Robust Predictor Filtering and Evaluation of Their Stability; Contemporary Mathematics; Vol. 7, iss. 2
Published: (2026)
Published: (2026)