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Journal articles on the topic 'Electrical submersible pump(ESP)'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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1

S, Gomaa. "Electrical Submersible Pump Design in Vertical Oil Wells." Petroleum & Petrochemical Engineering Journal 4, no. 4 (2020): 1–7. http://dx.doi.org/10.23880/ppej-16000237.

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Artificial Lift is a very essential tool to increase the oil production rate or lift the oil column in the wellbore up to the surface. Artificial lift is the key in case of bottom hole pressure is not sufficient to produce oil from the reservoir to the surface. So, a complete study is carried to select the suitable type of artificial lift according to the reservoir and wellbore conditions like water production, sand production, solution gas-oil ratio, and surface area available at the surface. Besides, the maintenance cost and volume of produced oil have an essential part in the selection of t
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2

Saleh, M. El-koliel, Eleissawi Hussein, and S. Nada Adel. "Speed control of electrical submersible pumps using fuzzy logic control." International Journal of Power Electronics and Drive Systems 13, no. 4 (2022): 2515~2528. https://doi.org/10.11591/ijpeds.v13.i4.pp2515-2528.

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Electrical submersible pumps (ESPs) are multistage centrifugal pumps driven by specially designed three-phase induction motors. They are used in many applications such as nuclear and petroleum industries. In the presented paper, we study the speed control of an ESP pump using a rule-based fuzzy logic controller (FLC). As a case study, an oil well is considered to analyze the effects of changing the speed of an ESP pump on both the ESP pump and motor parameters. The proposed speed control model of ESP pumps provides the ability to optimize wells production and power consumption, as well as soft
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3

El-koliel, Saleh M., Hussien Eleissawi, and Adel S. Nada. "Speed control of electrical submersible pumps using fuzzy logic control." International Journal of Power Electronics and Drive Systems (IJPEDS) 13, no. 4 (2022): 2515. http://dx.doi.org/10.11591/ijpeds.v13.i4.pp2515-2528.

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<p>Electrical submersible pumps (ESPs) are multistage centrifugal pumps driven by specially designed three-phase induction motors. They are used in many applications such as nuclear and petroleum industries. In the presented paper, we study the speed control of an ESP pump using a rule-based fuzzy logic controller (FLC). As a case study, an oil well is considered to analyze the effects of changing the speed of an ESP pump on both the ESP pump and motor parameters. The proposed speed control model of ESP pumps provides the ability to optimize wells production and power consumption, as wel
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4

Sucipto, Hari, Sigit Setya Wiwaha, and Imron Ridzki. "INSTALASI ESP (ELECTRIC SUBMERSIBLE PUMP) SISTEM TANDEM PADA SUMUR MINYAK DENGAN VARIABLE SPEED DRIVE." JURNAL ELTEK 16, no. 1 (2018): 51. http://dx.doi.org/10.33795/eltek.v16i1.86.

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When the pressure of an oil well is not too large to do Natural Flow, Artificial Lift is one of the methods that can be used to replace it, artificial lift usually using ESP (Electric Submersible Pump). ESP oil pump in petroleum is equipped with VSD (Variable Speed Drive) component to adjust motor speed as softstarter and oil rate regulator and as pump motor protection. For ESP construction with a motor tandem system installed on wells with different characteristics and depths that are different from ESP single motors. However, submersible pumps are augmented by increasing the number of pump s
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5

شختور, خالد محمد, وصال صبرى الولد та رفل جلال كريستة. "التصميم الامثل للمضخات الغاطسة الكهربائية في الابار النفطية بإستخدام برنامج Prosper". International Science and Technology Journal 35, № 1 (2024): 1–15. http://dx.doi.org/10.62341/kwrd1708.

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Artificial Lift is a very important tool to increase the oil production rate or lift the oil column in the wellbore up to the surface. Artificial lift is the main in case of bottom hole pressure is not enough to produce oil from the reservoir to the surface. Therefore, a comprehensive study is carried to select the appropriate type of artificial lift according to the reservoir and wellbore conditions like water production, sand production, solution gas-oil ratio, and surface area available at the surface. Also, the maintenance cost and volume of produced oil have an vital part in the selection
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6

Grassian, David, and Daniel Olsen. "Detailed Energy Accounting of Electrical Submersible Pumping Systems." Energies 13, no. 2 (2020): 302. http://dx.doi.org/10.3390/en13020302.

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The concept of energy return on investment (EROI) is applied to a set of electrical submersible pumps (ESPs) installed on a small offshore platform by conducting a detailed energy accounting of each ESP. This information is used to quantify the energy losses and efficiencies of each ESP system as well as the EROI of the lifting process (EROILifting), which is derived by dividing the energy out of each well, which is the chemical energy of the crude oil produced, by the energy consumed by each ESP system and by the surface equipment used to dispose of the well’s produced water. The resulting ER
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7

Shahid, Salman, Sharul Sham Dol, Abdul Qader Hasan, Omar Mustafa Kassem, Mohamed S. Gadala, and Mohd Shiraz Aris. "A Review on Electrical Submersible Pump Head Losses and Methods to Analyze Two-Phase Performance Curve." WSEAS TRANSACTIONS ON FLUID MECHANICS 16 (February 9, 2021): 14–31. http://dx.doi.org/10.37394/232013.2021.16.3.

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Electrical submersible pumps (ESP) are referred to as a pump classification whose applications arebased upon transporting fluids from submersible elevations towards a fixed pipeline. Specific ESP pumps areutilized in offshore oil and gas facilities that are frequently employed in transport of Liquefied Natural Gas(LNG) terminals. Transport of LNG is a multiphase process that causes operational challenges for ESP due topresence of air pockets and air bubbles; presenting difficulties, such as cavitation and degradation to pumpcomponents. This performance degradation causes an economic risk to co
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8

Sharifah, Nur Fatieha Mohamad, Afrizal Nurafnida, Zalani Daud Muhammad, and Rabiul Awal Md. "Review on electrical submersible pump failures detection and monitoring system." International Journal of Advances in Applied Sciences (IJAAS) 13, no. 4 (2024): 932–43. https://doi.org/10.11591/ijaas.v13.i4.pp932-943.

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An artificial lift is a technique for pumping fluids in the petroleum industry today. Most artificial lift that is used nowadays is an electrical submersible pump (ESP). ESP is very convenient and reliable for lifting production. It applies under offshore and onshore industries, where it has high displacement capacity and flexibility to handle various sizes and flow rates under different well conditions. Due to severe operating conditions, ESP may experience fatigue failure, an undesirable malfunction resulting in a shortened service life. Early failure detection on ESP is imperative to preven
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9

Zhou, Ling, Wanhong Wang, Jianwei Hang, Weidong Shi, Hao Yan, and Yong Zhu. "Numerical Investigation of a High-Speed Electrical Submersible Pump with Different End Clearances." Water 12, no. 4 (2020): 1116. http://dx.doi.org/10.3390/w12041116.

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The end clearance of the impeller is one of the most important structural parameters in the hydraulic design of a high-speed electrical submersible pump (ESP). In this paper, an ESP with a rotating speed of 6000 r/min was taken as the research object. Numerical calculations were carried out for five different end clearance conditions of 0.1 mm, 0.3 mm, 0.6 mm, 0.9 mm, and 1.2 mm, respectively, to obtain the performance and internal flow field under different situation. The simulation results were verified by the pump performance experiment. It showed that the increase of the end clearance led
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10

Mahmud, W. M., and A. M. Jaluta. "Decade of Electrical Submersible Pumps Failures: Case Study on Performance and Optimization." Journal of Applied Sciences and Environmental Management 29, no. 3 (2025): 747–54. https://doi.org/10.4314/jasem.v29i3.8.

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Electrical submersible pumps (ESPs) are widely used as an artificial lift technique utilized for oil production worldwide. Run and pull reports and production tests were analyzed. The paper also recommends mitigation strategies for determined failures to prolong an ESP run life. Electrical failures are the most common ESP failures mainly due interruptions and discontinuations in electricity supply. Technical and operational failures because of improper ESP pump selection and planning. Employing ESP system design that takes into consideration reservoir potential and reservoir fluid and rock pro
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11

Wang, Chuan, and Zhen Long. "ESN Neural Network-Based Electrical Submersible Pump Model." Academic Journal of Science and Technology 13, no. 3 (2024): 244–59. https://doi.org/10.54097/q19nxs69.

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This paper introduces an Electrical Submersible Pump (ESP) model based on the Echo State Network (ESN) neural network. ESPs are commonly used in oil extraction, and their performance is influenced by a variety of factors, making accurate modeling crucial for optimizing operations and maintenance. ESN is a type of recurrent neural network with unique dynamic memory capabilities, making it suitable for handling time-series data and modeling nonlinear dynamic systems. The article details the ESN network structure and its application in the ESP model, including how to use ESN to predict performanc
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12

Mohamad, Sharifah Nur Fatieha, Nurafnida Afrizal, Muhammad Zalani Daud, and Md Rabiul Awal. "Review on electrical submersible pump failures detection and monitoring system." International Journal of Advances in Applied Sciences 13, no. 4 (2024): 932. http://dx.doi.org/10.11591/ijaas.v13.i4.pp932-943.

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An artificial lift is a technique for pumping fluids in the petroleum industry today. Most artificial lift that is used nowadays is an electrical submersible pump (ESP). ESP is very convenient and reliable for lifting production. It applies under offshore and onshore industries, where it has high displacement capacity and flexibility to handle various sizes and flow rates under different well conditions. Due to severe operating conditions, ESP may experience fatigue failure, an undesirable malfunction resulting in a shortened service life. Early failure detection on ESP is imperative to preven
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13

Al-Hashmi, Salem A. "Condition monitoring of Electrical Submersible Pumps (Faults review)." Journal of Pure & Applied Sciences 20, no. 1 (2021): 71–74. http://dx.doi.org/10.51984/jopas.v20i1.1070.

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This paper is a part of condition monitoring of electrical submersible pumps (ESP). It assigned for reviewing and discussing faults or malfunctions of this kind of pumps. Therefore, it reviews all-important information related to this machine such as construction and operation. It focuses specifically on faults and details of these types of fault. Although there are slight differences between building submersible pumps in terms of the different technologies that different manufacturers use in making this type of pump, all kinds of these types of pumps are almost the same. In this context, pump
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14

Lestari, Nila Khoirul Tria, and Hadziqul Abror. "Desain dan Analisa Electrical Submersible Pump Pada Lapangan P-N 62 Sebagai Upaya Peningkatan Produksi." Journal of Sustainable Energy Development 2, no. 1 (2024): 1–13. http://dx.doi.org/10.19184/jsed.v2i1.308.

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The reservoir pressure in the P-N oil well is currently showing a significant decline. Some oil wells cannot flow naturally, so artificial lift is required to maintain Jabung oil production and deplete the remaining oil reserves. Analysis and evaluation of the use of artificial lift electrical submersible pump (ESP) in the P-N62 well using calculation and simulation to see the production performance of a well after adding artificial lift based on the results of the calculation it is determined that the ESP TD800 Series-400 with 117 stages with the ability to produce up to 990.96 BFPD and has a
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15

Yandra, Muhammad Almer, Djoko Sulistyanto, and Djunaedi Agus Wibowo. "ANALISIS PENGARUH GAS OIL RATIO TERHADAP HEAD DEGRADTION PADA SUMUR ELECTRICAL SUBMERSIBLE PUMP." PETRO:Jurnal Ilmiah Teknik Perminyakan 10, no. 4 (2022): 218–24. http://dx.doi.org/10.25105/petro.v10i4.7738.

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Produksi sumur minyak mengunakan artificial lift electric submersible pump memiliki beberapa keterbatasan, salah satunya adalah gas yang terproduksi bersama dengan minyak, gas yang terproduksi bersama dengan minyak dapat menurunkan nilai head dari pompa electric submersible pump. Sumur pada penelitian kali ini memproduksi minyak ringan dengan nilai GOR yang tinggi, peningkatan nilai GOR membuat desain electric submersible pump yang terpasang tidak mampu mempertahankan jumlah produksi yang ditentukan, untuk itu dilakukan penelitian mengenai pengaruh head degradation terhadap laju produksi pada
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16

Martinez Ricardo, Diana Marcela, German Efrain Castañeda Jiménez, Janito Vaqueiro Ferreira, and Pablo Siqueira Meirelles. "Multiphase gas-flow model of an electrical submersible pump." Oil & Gas Science and Technology – Revue d’IFP Energies nouvelles 73 (2018): 29. http://dx.doi.org/10.2516/ogst/2018031.

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Various artificial lifting systems are used in the oil and gas industry. An example is the Electrical Submersible Pump (ESP). When the gas flow is high, ESPs usually fail prematurely because of a lack of information about the two-phase flow during pumping operations. Here, we develop models to estimate the gas flow in a two-phase mixture being pumped through an ESP. Using these models and experimental system response data, the pump operating point can be controlled. The models are based on nonparametric identification using a support vector machine learning algorithm. The learning machine’s hi
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17

Weriono, Weriono, Abdul-Khair Junaidi, and Kabul Indarto. "Effect of Venting Equipment Installation on Oil Production Stability." Journal of Ocean, Mechanical and Aerospace -science and engineering- (JOMAse) 68, no. 3 (2024): 148–54. https://doi.org/10.36842/jomase.v68i3.377.

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Electric Submersible Pumps (ESPs) are one of the most prominent artificial lifting methods in the oil and gas industry today. In the operation of Electric Submersible Pumps on wells in the Ko-Pet field, a gas lock may occur when liquid and gas separate in the tubing above an electric submersible pump and inside the pump. This study aims to determine the effect of installing venting equipment on oil well production. Venting equipment was installed in three oil wells: KI090, KI183, and KI495 in the Ko-Pet oil field. From the production data, it was found that the installation of Venting Equipmen
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18

Yao, Jinsong, Guoqing Han, Xingyuan Liang, and Mengyu Wang. "Machine Learning-Based Sizing Model for Tapered Electrical Submersible Pumps Under Multiple Operating Conditions." Processes 13, no. 4 (2025): 1056. https://doi.org/10.3390/pr13041056.

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Dewatering gas wells typically exhibit a high gas–liquid ratio, making tapered electrical submersible pump (ESP) systems a common choice. However, the flow rate within the pump varies significantly along its length, and production parameters fluctuate considerably across different stages of operation for a gas reservoir. Traditional ESP sizing methods typically consider one single operating case and one single pump model. In contrast, tapered ESP systems require the designer to manually select and combine pump models, stage numbers, and operating frequencies based largely on experience. This p
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19

Shahid, Salman, Abdul Qader Hassan, Sharul Sham Dol, Mohamed S. Gadala, and Mohd Shiraz Aris. "EFFECTS OF GAS VOLUME FRACTIONS ON ELECTRICAL SUBMERSIBLE PUMP PERFORMANCE UNDER TWO-PHASE FLOW." Platform : A Journal of Engineering 5, no. 2 (2021): 2. http://dx.doi.org/10.61762/pajevol5iss2art12255.

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An Electrical Submersible Pump (ESP) is the most commonly used artificial lifting method in the oil and gas industry through conversion of kinetic energy to pump pressure head; however, issues like gas entrainment and shifting production rates tend to cause ESP pressure degradation. Flow behaviours inside the ESP, such as gas pockets or pressure surging tend to diminish the pump pressure head significantly. Observation of gas-liquid flow in the ESP is challenging due to the compact, sophisticated geometry and highly turbulent flow strucutres. This paper observes two-phase flow in the ESP throu
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20

AL-Hejjaj, Mohammed A., Dhifaf J. Sadeq, and Omar Al-Fatlawi. "A Review of the Electrical Submersible Pump Development Chronology." Iraqi Journal of Chemical and Petroleum Engineering 24, no. 2 (2023): 123–35. http://dx.doi.org/10.31699/ijcpe.2023.2.14.

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The electric submersible pump, also known as ESP, is a highly effective artificial lift method widely used in the oil industry due to its ability to deliver higher production rates compared to other artificial lift methods. In principle, ESP is a multistage centrifugal pump that converts kinetic energy into dynamic hydraulic pressure necessary to lift fluids at a higher rate with lower bottomhole pressure, especially in oil wells under certain bottomhole condition fluid, and reservoir characteristics. However, several factors and challenges can complicate the completion and optimum development
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21

Cho, Joon-Ho. "A Study on the Development of ICT Convergence Smart ESP Using Embedded System." Electronics 12, no. 6 (2023): 1351. http://dx.doi.org/10.3390/electronics12061351.

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In this paper, the electrical submersible pump (ESP) is combined with information and communication technologies (ICT) to diagnose the operation status and soundness of the ESP. The ICT convergence provides users with maintenance and repair information through history management and remote control in case of failure. The proposed system includes a monitoring unit (MU) that senses the operating state of the ESP, a monitoring control unit (MCU) that transmits the sensed information to internal and external databases, and a monitoring system that allows users to check the status information. The
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22

Pedraza, Putri Rizkika Ramadhanti, Rivanya Ayuningtyas, Eriska Eklezia Dwi Saputri, and Hadziqul Abror. "Optimasi Jaringan Pipa Sumur ESP Pada Manifold A dan Manifold Satelite untuk Meningkatkan Laju Aliran Minyak dan Analisis Perubahan Tekanan di Lapangan J." Journal of Sustainable Energy Development 2, no. 1 (2024): 28–41. http://dx.doi.org/10.19184/jsed.v2i1.499.

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The wells in Field J, using Electrical Submersible Pumps (ESP), have replaced their natural flow operations. To optimize this ESP well and pipeline network, the research focuses on adjusting the ESP pump frequency within the Pipesim simulator, increasing it to enhance oil flow rates. This study employs a quantitative approach, where field data is analyzed and input into a simulation model that replicates real-world conditions. The analysis encompasses changes in flow rates and pressures, comparing the base case to post-optimization simulations. The results indicate a substantial increase in th
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23

Fakher, Sherif, Abdelaziz Khlaifat, M. Enamul Hossain, and Hashim Nameer. "Rigorous review of electrical submersible pump failure mechanisms and their mitigation measures." Journal of Petroleum Exploration and Production Technology 11, no. 10 (2021): 3799–814. http://dx.doi.org/10.1007/s13202-021-01271-6.

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AbstractArtificial lift is a vital part of the life of many oil wells worldwide. Using several artificial lift methods can prolong the life of the wells and increase oil recovery significantly. One of the most applied artificial lift methods nowadays is the electrical submersible pump (ESP). This artificial lift method has the ability to handle large volumes of hydrocarbons and is applicable under many conditions in both offshore and onshore reservoirs. Even though ESP has been applied extensively for many years, it still suffers from many failures due to electrical, mechanical, and operationa
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24

Iranzi, Joseph, Hanam Son, Youngsoo Lee, and Jihoon Wang. "A Nodal Analysis Based Monitoring of an Electric Submersible Pump Operation in Multiphase Flow." Applied Sciences 12, no. 6 (2022): 2825. http://dx.doi.org/10.3390/app12062825.

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Electrical submersible pump (ESP) operation is compromised by free gas, resulting in premature pump failure and production losses in new wells. It is essential to detect the onset of abnormal operations. We develop a model that predicts abnormal ESP operation when the free gas level increases in the pump. The model compares operation parameters with the parameters of normal operating ranges; it shuts down the ESP when necessary. We used a Schlumberger PIPESIM software (version 2017.01) to perform nodal analysis technique; we tested the model using the other multiphase correlation model and fie
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Chandra, Steven, Brian Tony, and Rahma Widyastuti. "Integrated Production Optimization of Mature Field Y Under Network Constraints." Journal of Petroleum and Geothermal Technology 4, no. 2 (2023): 8. http://dx.doi.org/10.31315/jpgt.v4i2.10986.

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The Y Field, a mature field experiencing declining reservoir pressure, the production of hydrocarbons is declining, leading to the need for production optimization. One crucial aspect of this optimization is the selection of suitable artificial lift methods. The choice of artificial lift methods in Field Y is dependent on the unique reservoir conditions of each well. The commonly utilized equipment for artificial lift methods in Field Y includes the Sucker Rod Pump (SRP) and the Electrical Submersible Pump (ESP).This bachelor thesis aims to develop an integrated production optimization strateg
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26

Mohammed K. Abbas. "COMPUTATION OF HYDRODYNAMIC CHARACTERISTICS OF WATER FLOW IN ELECTRICAL SUBMERSIBLE PUMP." Diyala Journal of Engineering Sciences 5, no. 2 (2012): 37–51. http://dx.doi.org/10.24237/djes.2012.05203.

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The electrical submersible pump (ESP) systems play an important role in the industry and many engineering applications. It is frequently used in the drinking water purification units for lifting water from well. The centrifugal pump is the most important part of ESP systems. In the present work, a simulation have been carried out using Computational Fluid Dynamic CFD techniques and commercial software based on the finite volume method, ANSYS® CFX® Release 11.0. The results of the simulations include the pressure fields, velocity field, and velocity vector obtained to the internal flow in the i
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27

Koryesin, Melani Anastasia, and Diyah Rosiani. "EVALUASI KINERJA ELECTRIC SUBMERSIBLE PUMP PADA SUMUR X." Prosiding Seminar Nasional Teknologi Energi dan Mineral 2, no. 1 (2022): 124–28. http://dx.doi.org/10.53026/sntem.v2i1.872.

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Electrical submersible pump merupakan pompa sentrifugal bertingkat banyak atau multi stage dengan beberapa impeller dan difusser di setiap stage/sambungan. Peralatan ESP dibagi menjadi peralatan diatas permukaan dan dibawah permukaan yang terdiri dari electrical motor, protector, pompa, cable dan lain-lain. Prinsip kerja electric submersible pump yaitu diposisikan di dalam sumur dan digantung pada tubing.Salah satu sumur produksi dilapangan Y adalah sumur X yang rate produksinya mencapai 2751 BFPD. Dengan rate produksi minyak sebesar 27,51 BOPD dan water cut sebesar 99%, penulis melakukan eval
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Kassem, Omar Mostafa, Abdul Qader Abdullah, Sharul Sham Dol, Mohamed S. Gadala, and Mohd Shiraz Aris. "CFD ANALYSIS ON THE SINGLE-PHASE FLOW ELECTRICAL SUBMERSIBLE PUMP PERFORMANCE CURVE." Platform : A Journal of Engineering 4, no. 4 (2020): 26. http://dx.doi.org/10.61762/pajevol4iss4art11013.

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Most of the industrial fields, especially oil and gas, involve the application of electrical submersible pump (ESP) for flow transport. The pump performance will deteriorate depending on conditions of usage. The main parameters that affect or influence the pump performance curve are pump types, fluid flow rates, gas fractions, the impellers’ geometry, rotational speeds and fluid properties. In this work, the pump performance curve was studied as the governing parameters such as flow rates, meshing elements and turbulence models were varied. A computational fluid dynamics simulation (CFD) was a
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29

Yao, Cheng, Ming Zhong Li, and Guang Fu Liu. "Partial Friction Fault Diagnosis of Electrical Submersible Pump Based on Support Vector Machines." Advanced Materials Research 219-220 (March 2011): 1689–92. http://dx.doi.org/10.4028/www.scientific.net/amr.219-220.1689.

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Exact diagnosis of electrical submersible pump (ESP)partial friction fault may avoid magnitude economic loss. Three-dimensional vibration accelerations of ESP were measured with acceleration transducer. Since working well ESPs are deeper in the earth, vibration signals seriously fade. This paper proposed that SVM is employed as classifier and wavelet parameters as features for ESP partial friction fault diagnosis. After SVM parameters selection with grid method, the highest recognition rate is up to 86.7%. Results indicate that SVM is competent not only for small sample recognitions but also f
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30

Aslanov, Jamaladdin Nuraddin, Mehdi Vahid Mehdizade, Zenfira Seydi Huseynli, Gahraman Hasanov, Leyla Ramiz Ibayeva, and Gulshad Mammadgasim Aghayeva. "Increasing the Wear Resistance of the Impellers of Electrical Centrifugal Submersible Pumps Through Repair." Revista de Gestão Social e Ambiental 18, no. 11 (2024): e09251. http://dx.doi.org/10.24857/rgsa.v18n11-062.

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Objective: This research investigates the challenges of maintaining electrical submersible pumps (ESP) and develop effective repair techniques to enhance their reliability and efficiency. Theoretical Framework: The research draws upon theories and models related to pump maintenance, materials science, and corrosion prevention. Methodology: A case study approach was adopted, focusing on a Weir VTP submersible pump in continuous operation for 15 years. The pump's condition was assessed, and the root causes of erosion and corrosion were identified. Laser cladding with a TiC coating was applied to
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31

Ita, Okon, Edet, and Chinedu Ikenna Ndubuka. "Maximizing Oil Recovery in a Marginal Oilfield: Niger Delta Case Study." Journal of Engineering Research and Reports 26, no. 4 (2024): 104–19. http://dx.doi.org/10.9734/jerr/2024/v26i41118.

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Marginal field development and production are often abandoned by operators because of finding reliable and available equipment and services to enable the field to be developed. These challenges make it difficult to economically produce such fields. This research demonstrates the use of industry-based simulators (PIPESIM, ECLIPSE and PETREL) to design well completion model, Electrical Submersible Pump (ESP). model, simulate, and evaluate the performance of ESP on a typical marginal oilfield. The main objective of this study is to effectively optimize oil production from marginal fields in the N
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32

NATALIANA, DECY, NANDANG TARYANA, and RIDWAN ARIF AKBAR. "Studi Korelasi antara Kapasitas Daya Motor Electrical Submersible Pump terhadap 4 Parameter Sumur Minyak." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 6, no. 1 (2018): 79. http://dx.doi.org/10.26760/elkomika.v6i1.79.

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ABSTRAKElectrical Submersible Pump (ESP) merupakan salah satu sistem pumping yang digunakan dalam produksi minyak bumi dengan menggunakan motor induksi sebagai penggerak utama yang ditanamkan ke dalam sumur. Seperti yang telah diketahui bahwa kinerja sistem ESP yang digunakan di PT Baker Hughes Indonesia, berlangsung secara terus-menerus. Hal ini dapat mempengaruhi kinerja motor yang menyebabkan hasil produksi menurun. Hasil produksi minyak mentah berbeda-beda untuk masing-masing wellpad, dimana 1 wellpad terdiri dari beberapa sumur dan masing-masing sumur memiliki kedalaman yang berbeda sehin
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Brasil, Jéssica, Carla Maitelli, João Nascimento, Osvaldo Chiavone-Filho, and Edney Galvão. "Diagnosis of Operating Conditions of the Electrical Submersible Pump via Machine Learning." Sensors 23, no. 1 (2022): 279. http://dx.doi.org/10.3390/s23010279.

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In wells that operate by electrical submersible pump (ESP), the use of automation tools becomes essential in the interpretation of data. However, the fact that the wells work with automated systems does not guarantee the early diagnosis of operating conditions. The analysis of amperimetric charts is one of the ways to identify fail conditions. Generally, the analysis of these histographics is performed by operators who are often overloaded, generating a decrease in the efficiency of observing the well operating conditions. Currently, technologies based on machine learning (ML) algorithms creat
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Tony, Brian, and Steven Chandra. "TUBING STRENGTH ANALYSIS AND FAILURE ASSESSMENT OF ELECTRICAL SUBMERSIBLE PUMP (ESP) WELL: A CASE STUDY ON PRODUCTION WELL “X”." Jurnal Mineral, Energi, dan Lingkungan 6, no. 2 (2023): 15. http://dx.doi.org/10.31315/jmel.v6i2.7701.

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This study will discuss the evaluation of tubing strength in Well X that using Electrical Submersible Pump as an artificial lifting method. The evaluation will be carried out to determine the risk of failure of production tubing due to erosional damage and the failure due to loads on tubing during production operation using Electrical Submersible Pump. Burst, collapse, and tension loads will be the main focus in evaluating the tubing load by considering the worst conditions that may be experienced during production operation. The calculation of the tubing load is done using Microsoft Excel. Th
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35

Carpenter, Chris. "Study Explores Design, Potential of Electric Submersible Generators." Journal of Petroleum Technology 75, no. 10 (2023): 87–89. http://dx.doi.org/10.2118/1023-0087-jpt.

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_ This article, written by JPT Technology Editor Chris Carpenter, contains highlights of paper SPE 214361, “Electric Submersible Generators: Using ESPs in an Unfamiliar Way,” by Charles E. Collins, Kenneth J. Frazier, and Bryan Coates, SPE, Baker Hughes. The paper has not been peer reviewed. _ The electrical submersible generator (ESG) is a modern interpretation of an old idea. The ESG can generate electricity to meet surface power needs or feed directly into the grid to create a revenue stream under the proper injection conditions. In typical configurations, a standard centrifugal pump is use
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Saptadi, Singgih, Achmad Widodo, Muhammad Fitrah Athaillah, and Muhammad Farid Ayyasyi. "Implementation of machine learning methods in predicting failures in electrical submersible pump machines." Multidisciplinary Science Journal 7, no. 3 (2024): 2025137. http://dx.doi.org/10.31893/multiscience.2025137.

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The Electric Submersible Pump (ESP) is one of the artificial lift tools widely used in oil and gas wells. Approximately 25% of oil and gas wells have been equipped with ESP. The ESP unit excels in lifting fluid rates much larger than most other types of artificial lift. The purpose of this research is to develop a machine learning model that can predict the likelihood of ESP installation failure. By making predictions at the early stage, necessary actions can be prepared to prevent and anticipate these issues. Thus, the reduction in the amount of produced fluid can be minimized. The model in t
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Suprayitno, Abdi, Muhammad Fauzi Ramadhan, and Rohima Sera Afifah. "Optimasi Electrical Submersible Pump (ESP) Pada Sumur MFR-21 Berdasarkan Keadaan Sumur di Masa Depan." Jurnal Offshore: Oil, Production Facilities and Renewable Energy 8, no. 1 (2024): 37–44. https://doi.org/10.30588/jo.v8i1.1888.

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When wells are produced continuously, the reservoir pressure will continue to decrease resulting in decreased production performance from the well. To optimally increase the rate of production, optimization is carried out using an Artificial Lift Electrical Submersible Pump. Based on data from the journal, "MFR-21" well had previously been installed Electrical Submersible Pump but was no longer functioning due to the condition of ESP pump not running or dead due to damage, so the author's goal is to optimize the pump and predict the condition of the well in the future until when the pump is no
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Yasmaniar, Ghanima, Anggraita Nur Chasanah, Sigit Rahmawan, Marmora Titi Malinda, Apriandi Rizkina Rangga Wastu, and Ridha Husla. "EVALUASI DAN OPTIMASI SUMUR ELECTRICAL SUBMERSIBLE PUMP (ESP) DENGAN NODAL ANALYSIS." PETRO: Jurnal Ilmiah Teknik Perminyakan 12, no. 4 (2023): 262–70. http://dx.doi.org/10.25105/petro.v12i4.18760.

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Lapangan G memiliki salah satu sumur yaitu G-1 yang sudah lama berproduksi dan dioperasikan menggunakan ESP (Electric Submersible Pump) dengan produksi saat ini 554 BFPD. Maksud dan Tujuan dari penelitian ini adalah melakukan evaluasi ESP terpasang pada Sumur G-1 dan analisisnya untuk optimasi produksi. Metodologi: Sumur G-1 menggunakan metode perhitungan IPR Wiggins karena watercut-nya yang tinggi, serta digunakan IPR Vogel sebagai kontrol dan produksi pesimis. Analisis optimasi yang dilakukan berdasarkan nodal analysis dimana terjadi perpotongan kurva IPR dan tubing intake, dengan skenario p
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Hermawan, Bagus Danial, Welayaturromadhona Welayaturromadhona, Eriska Eklezia Dwi Saputri, Riska Laksmita Sari, and Hadziqul Abror. "EVALUASI PERMASALAHAN GAS INTERFERENCE PADA ELECTRICAL SUBMERSIBLE PUMP DI SUMUR MD-17." PETRO: Jurnal Ilmiah Teknik Perminyakan 12, no. 3 (2023): 201–10. http://dx.doi.org/10.25105/petro.v12i3.16743.

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Natural flow can not be performed in the reservoir from the MD-17 well. The most likely reason is because it is classified as a mature well, so an Artificial Lift is needed. The artificial lifting mechanism used is the Electrical Submersible Pump. In this research, the writer analyze the problem of "Gassy" condition or interference. The MD-17 well problem shows that the free gas in this well is 245.213 mscf. Moreover, the amount of free gas that enters the Pump is 8%. From these problems, it causes ESP become disrupted and not produce optimally. The solution to the gas interference problem at
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Kurniadi, Ahmad Dzikri, Sigit Rahmawan, and Harin Widiyatni. "EVALUASI FLUID ABOVE PUMP UNTUK OPTIMASI ELECTRICAL SUBMERSIBLE PUMP PADA LAPANGAN SLN." Petro : Jurnal Ilmiah Teknik Perminyakan 14, no. 1 (2025): 45–51. https://doi.org/10.25105/petro.v14i1.17392.

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The SLN field is a field that has several fields and produces fluids using artificial lift, specifically electrical submersible pumps (ESP). The objective of this research is to obtain the latest recommended value for fluid above the pump (FAP) by evaluating the FAP in each field within the SLN field. This will help determine the minimum fluid above the pump as a reference for future operations in the SLN field. In this study, the method used to calculate the fluid above the pump involves interpolating the FAP data with casing pressure, gas production, and gas-oil ratio (GOR) data. This is don
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Wang, Xiaolei, Xuezhang Feng, Jinbo Liu, et al. "Optimization of the Well Start-Up Procedure and Operating Parameters for ESP Gas Well Dewatering." Sustainability 15, no. 2 (2023): 1498. http://dx.doi.org/10.3390/su15021498.

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The Electrical Submersible Pump (ESP) systems were deployed in two gas wells for the dewatering of the gas reservoir. However, problems, such as the failure to start up the ESP, and changes in reservoir parameters occurred during the production. For the first problem, the well start-up operation records indicate that the ESP’s gas locking happened. To avoid this, an optimization method of the well start-up procedure for the ESP well with a check valve was correspondingly proposed, which can solve the problem without any workovers. Secondly, based on the working characteristics of the ESP and t
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Talib, Sabah Hussein, and Hasan Hamzah Ameer. "Comparative Evaluation between the Pump of Electrical Submersible (ESP) and the Lift of Gas (GL) for Production Optimization." International Journal of Research (IJR) 8, no. 10 (2021): 152–67. https://doi.org/10.5281/zenodo.5624977.

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<strong>Abstract: </strong>The development of hydrocarbon from underground reservoirs to surface production and storage facilities through the wellbore is one of the most important aspects of the exploration and production industry. When a well is drilled, the reservoir fluid flows naturally with the reservoir&#39;s primary energy, but when this is not possible, an artificial lift system is built to assist the flow by lowering the hydrostatic pressure within the output tubing. This research compares gas lift (GL) and electrical submersible pump (ESP) for MAJNON 1, well production optimization
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Deng, Yonghong, and Zhishan Liang. "Research on Power Supply Scheme of Electrical Submersible Pump Fed by Inverter Based on Long Cable." MATEC Web of Conferences 260 (2019): 02007. http://dx.doi.org/10.1051/matecconf/201926002007.

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Electrical submersible pump (ESP) require remote operation of inverter via a long cable. The conventional control algorithm of inverter does not operate effectively. In this paper, a new power supply scheme is proposed, namely: Inverter - Motor - Generator - Transformer – Long Cable - ESP power supply program, referred to as IMGEESP power supply system. Based on the analysis of the IMGEESP, the model of the long cable was established, the functional relationship between inverter and smart power of the IMGEESP was deduced, so that the voltage model is constructed. The frequency converter and th
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Rojas Rodríguez, Freddy Ignacio, José Roberto d’Almeida Moraes, and Bojan A. Marinkovic. "Natural Aging of Ethylene-Propylene-Diene Rubber under Actual Operation Conditions of Electrical Submersible Pump Cables." Materials 14, no. 19 (2021): 5520. http://dx.doi.org/10.3390/ma14195520.

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Ethylene-propylene-diene monomer (EPDM) rubbers used in electric submersible pump (ESP) cables were analyzed after being aged in actual operation conditions in oil wellbores. These rubbers constitute the insulation and jacket layers of the ESP cables. EPDM rubbers from four different cables operating during different time intervals (2 and 4.8 years) at different depths (from 760 to 2170 m) below sea level were studied. To verify the effects of the long exposure on the rubber performance, thermal analysis was performed to determine the thermal stability and activation energy of degradation. In
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Hasan, Abdulqader, Mohamed S. Gadala, Salman Shahid, Mohd Shiraz Aris, Sharul Sham Dol, and Mohammed Alavi. "Numerical Investigation of Wall Shear Stress under Single-Phase and Two-Phase Flow in the Electrical Submersible Pump." WSEAS TRANSACTIONS ON FLUID MECHANICS 16 (August 4, 2021): 158–67. http://dx.doi.org/10.37394/232013.2021.16.15.

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The effects of the wall shear stress on an Electrical Submersible Pump (ESP) was investigated in this paper. A CFD model in ANSYS Fluent was proposed to simulate actual single-phase and two-phase flow. The bottom hole pressure was minimized by utilizing the artificial lift methods. The flowing fluids in pumps and pipes causes shear stress on surface interacting. In multiphase flow application pump damages on head degradation as well as shear stress affects. The K-ω turbulence model and the multiphase Mixture approach with the sliding technique used to solve the Navier-Stokes equation. To study
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Adnan, Muhammad, Rohima Sera Afifah, and Yudiaryono Yudiaryono. "MEMPREDIKSI KEADAAN SUMUR DIMASA DEPAN DENGAN MELAKUKAN OPTIMASI MENGGUNAKAN ELECTRICAL SUBMERSIBLE PUMP PADA SUMUR “AD-96”." PETROGAS: Journal of Energy and Technology 3, no. 1 (2021): 1–10. http://dx.doi.org/10.58267/petrogas.v3i1.47.

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The production capacity of an oil and gas well is a benchmark in planning production equipment and increases the flow rate of production. In order to increase the rate of oil production, optimization is done optimally using ESP and it is predicted that the production time will be several years ahead. The method used in the well "AD-96" is the Wiggins Method 3 Phase IPR curve to increase the optimal production flow rate by continuing to predict IPR Future through a gradual decrease in reservoir pressure (Pr) scenario. IPR Future in this case provides a development to know the wells in the futur
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Sudjito, Erizaldi Musthofa, Andi Jumardi, and Firdaus Firdaus. "OPTIMASI PRODUKSI SUMUR “ZL” DENGAN MENGGUNAKAN ARTIFICIAL LIFT ELECTRICAL SUBMERSIBLE PUMP PADA LAPANGAN “YY”." PETROGAS: Journal of Energy and Technology 3, no. 1 (2021): 44–56. http://dx.doi.org/10.58267/petrogas.v3i1.50.

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The well "ZL" is located in the Tarakan field which at the beginning of production did not use an Artificial Lift. However, these wells will experience a decrease in production rates due to lower reservoir pressure and increased water cut levels. An Artificial Lift is needed to help lift the fluid to the surface. The Artificial Lift chosen for the “ZL” well is the Electrical Submersible Pump. In the initial step of ESP design, the method used was appropriate to the field conditions "YY", namely the Vogel Method. Next determine the amount of pump efficiency (% EP) and perform optimization on th
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Indriani, Erdila, Sitti Nurul Septyani Rasako, and Erwin B. Pattikayhatu. "Evaluasi Penggantian Artificial Lift Sucker Rod Pump (SRP) Menjadi Electrical Submersible Pump (ESP) Untuk Meningkatkan Produksi Minyak Sumur S Lapangan Kawengan." Lembaran Publikasi Minyak dan Gas Bumi 58, no. 3 (2025): 163–71. https://doi.org/10.29017/lpmgb.58.3.1697.

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Sumur S Lapangan Kawengan PT. Pertamina EP Asset 4 Cepu Field merupakan sumur artificial lift berupa Sucker Rod Pump (SRP). Produksi minyak sumur S seiring berjalannya waktu menurun lebih dari 90% dari produksi awal, selain karena meningkatnya kadar air hampir 90% juga karena terhentinya kegiatan produksi dengan adanya pekerjaan well service untuk meningkatan performance pompa SRP terpasang.Produksi gross sumur S turun menjadi 80 BFPD dengan produksi net 5 BOPD, sedangkan jika dilihat pada April 2018 produksi gross dari sumur S mencapai 597 BFPD dengan produksi net 43 BOPD. Untuk meningkatkan
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Sui, Xianfu, Guoqing Han, Xin Lu, Zhisheng Xing, and Xingyuan Liang. "Energy Consumption Prediction and Optimization of the Electrical Submersible Pump Well System Based on the DA-RNN Algorithm." Processes 13, no. 1 (2025): 128. https://doi.org/10.3390/pr13010128.

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The electrical submersible pump (ESP) well system is widely used in the oil industry due to its advantages of high displacement and lift capability. However, it is associated with significant energy consumption. In order to conserve electrical energy and enhance the efficiency of petroleum companies, a deep learning-based energy consumption calculation method is proposed and utilized to optimize the most energy-efficient operating regime. The energy consumption of the ESP well system is precisely determined through the application of the Pearson correlation coefficient analysis method, which i
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Antonic, M., M. Solesa, G. Thonhauser, A. B. Zolotukhin, and M. Aleksic. "Implementing the autonomous adaptive algorithm to manage ESP operation in harsh reservoir conditions." IOP Conference Series: Materials Science and Engineering 1201, no. 1 (2021): 012083. http://dx.doi.org/10.1088/1757-899x/1201/1/012083.

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Abstract The well geometries with a shallow kick-off point in conjunction with surface infrastructure limitations have led to Electrical Submersible Pump (ESP) technologies' application as one of the most suitable artificial lift methods for the harsh reservoir conditions. However, the harsh reservoir conditions in terms of the low reservoir pressure, high reservoir temperature, scaling problems in various forms, and high gas content at the pump intake have reduced the ESP system run life. Therefore, this research represents the Autonomous Adaptive Algorithm (A3) as a holistic approach to inte
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