Relevant bibliographies by topics / Submersible device

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Submersible device'

Author: Grafiati
Published: 28 May 2022
Last updated: 18 July 2025

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Journal articles on the topic "Submersible device"

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Yang, Fan, Zhikang Lin, Jindong Li, Ahmed Nasr, Weiguo Cong, and Chao Li. "Analysis of internal flow characteristics and structure optimization of vertical submersible axial flow pump device." Advances in Mechanical Engineering 14, no. 5 (2022): 168781322211006. http://dx.doi.org/10.1177/16878132221100641.

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In order to investigate the internal flow characteristics and hydraulic stability of vertical submersible pump station in forward and reverse operation, the steady and unsteady three-dimensional numerical simulation of vertical submersible axial-flow pump device was carried out based on CFD and the energy performance of the pump device was predicted. In this paper, the internal flow characteristics of the vertical submersible axial-flow pump device under forward and reverse operation were analyzed, and the optimization of the structure passed by water was carried out to improve the efficiency of the pump device in forward and reverse operation. The results show that the performance of the pump device is good when it is running in the forward direction, the peak efficiency of the pump device is 72.22% and the corresponding head is 4.01 m. When it is running in the reverse direction, the performance of the pump device decreases significantly with the peak efficiency is only 36.03% and the corresponding head is 3.34 m. The hydraulic loss in the dust-pan-shaped conduit is very small in the forward operation, the wellbore conduit is the main factor which affects the efficiency of the submersible axial flow pump device, the loss ratio is 12%–44%. When the pump device is in reverse operation, the hydraulic loss is similar but the hydraulic performance is poor and the hydraulic loss is obviously larger than that in forward operation. A guide plate is added to the dust-pan-shaped conduit at 0.27 D ( D is the nominal diameter of impeller) along the axis direction of the conduit, and a elbow flow conduit with the corner radius R of 0.83 D is selected to replace the wellbore conduit, the bad flow state disappeared and the efficiency of the pump device increased by 5.19% in the forward operation while the efficiency of the pump device increased by 9.62% in the reverse operation.
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Zenfira Huseynli, Turkan Musazada, Zenfira Huseynli, Turkan Musazada. "RESEARCH OF INCREASING THE CAPACITY OF THE MAIN ELEMENTS OF A SUBMERSIBLE CENTRIFUGAL ELECTRIC PUMP DEVICE." ETM - Equipment, Technologies, Materials 11, no. 03 (2022): 75–81. http://dx.doi.org/10.36962/etm11032022-75.

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The article is devoted to the investigation of the causes of failures in centrifugal submersible electric pumping units (CSEP) during the work process, the measures taken to eliminate failures, improve performance and increase the time between repairs. In order to improve the performance of CSEP, a number of changes were made in the design. Keywords: centrifugal submersible electric pumping unit, guidance apparatus, impeller, support ring, friction.
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Praveena, A., A. Ganesh, A. Deepak, B. D. V. Prasad, and G. Sai Vineeth. "Implementation of BLDC Motor in a Solar Water Pumping System." Journal of Advance Electrical Engineering and Devices 1, no. 2 (2023): 1–10. http://dx.doi.org/10.46610/jaeed.2023.v01i02.001.

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A sun water pumping system is a greater efficient water pumping system with the use of a renewable electricity supply this is Sun, and it can be used with greater effectiveness in houses, and fields. Until now sun water pumping devices is administered by the use of a submersible motor pump best however the submersible motor pump has its risks in terms its velocity, and torque. So one can reduce those risks and run the solar water pumping device extra correctly and efficaciously and the submersible motor pump is replaced by way of the BLDC motor and development inside the velocity, torque is located, then the submersible water motor pump. To obtain this, a solar photovoltaic (PV) array converts sun power into electrical energy, and the BLDC is rotated using the electricity that was obtained. A pump consists of the water pumping, that's connected to the BLDC is used. A PSO set of rules is used to grow the electricity output using an intermediate-degree DC-DC converter, to provide faster performance; a PV feed-forward period time is added. This topology is simulated and MATLAB/Simulink simulation assessments under numerous air situations are used to illustrate its reaction. A modified grey PSO optimization for a sun device is based on most strength point tracking. A quick seek method to the global most factor in a shorter quantity of time is furnished via the changed PSO, which gets rid of the lower-rank and lowest-rank wolves. The MPPT is primarily based on PSO. The Simulink version is constructed and simulated with the use of MATLAB/Simulink; the required effects are acquired and tabulated.
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Tamilla Khankishieva, Chenhan Zhao, Tamilla Khankishieva, Chenhan Zhao. "ABOUT THE SYSTEM OF ELECTRIC TRANSMISSION OF INSTALLATIONS OF ELECTRIC SUBMERSIBLE CENTRIFUGAL PUMPS USED IN OIL WELLS." ETM - Equipment, Technologies, Materials 11, no. 03 (2022): 106–10. http://dx.doi.org/10.36962/etm11032022-106.

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The article details the materials on the elements of the electrical transmission system of electric submersible centrifugal pumps, which are used in flooded oil production wells to lift products in the form of a water-oil mixture from the bottom to the surface. At the beginning of the article, the device and purpose, the principle of operation, the technical characteristics of the cable, the order of descent into the well on the tubing string, the required geological and physical conditions for its normal operation in the well are presented. Then the purpose of using the transformer and autotransformer, the device, purpose, principle of operation and satisfactory conditions for their normal operation are announced. Further, the control station and the main functions performed by it, the purpose of each element of this station, and its operation in cold and moderate climatic conditions are described in detail. Keywords: Electric submersible centrifugal pump, cable, transformer, autotransformer, control station, submersible motor, tubing, belt, geological and physical conditions.
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Todorov, Georgi, Konstantin Kamberov, and Blagovest Zlatev. "CFD Analysis of the Behavior of a Submersible Vehicle in Multiple Flow Directions and Elevator and Rudder Fin Configurations." IOP Conference Series: Earth and Environmental Science 1380, no. 1 (2024): 012012. http://dx.doi.org/10.1088/1755-1315/1380/1/012012.

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Abstract Presented in the paper is a CFD finite element analysis of a submersible vehicle used for the imaging of plankton for fisheries research. Researched are different fluid flow conditions – different orientations of the flow relative to the submersible vehicle and different configuration of the elevator fin and the rudder fin with the goal to calculate the different pressure center positions in order to form curves and compare the specified initial buoyancy and gravity centers. After determining of the metacentric lines in different rudder and fin configuration the conclusion is made that the submersible device will maintain stable equilibrium while changing direction for the analyzed fluid flows.
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D, KARTHICK. "IoT-BASED COMPACT SOIL MOISTURE MONITORING DEVICE." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 03 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem29483.

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The project delineates a sophisticated smart irrigation system leveraging the principles of the Internet of Things (IoT). Central to the system is an Arduino microcontroller, serving as the control hub, orchestrating the operation of a 5V semi-submersible water pump based on real-time soil moisture levels. An integral component of the setup is a Bluetooth module, facilitating seamless connectivity between the user's mobile application and the irrigation system. Through the mobile application, users gain access to sensor data values transmitted via Bluetooth. This bidirectional communication empowers users to monitor soil moisture levels remotely, enabling informed decision-making regarding irrigation needs. The system operates autonomously by activating the water pump when soil moisture levels dip precariously low and deactivating the pump once the moisture level reaches a predefined threshold. This intelligent automation ensures efficient water usage, preventing over-irrigation while fostering optimal soil conditions for plant growth. In essence, this IoT-based smart irrigation system not only introduces automation and precision to the irrigation process but also enhances user interaction through mobile connectivity. The synergy of Arduino control, a submersible water pump, and Bluetooth communication exemplifies a user- friendly and resource-efficient approach to modernizing traditional irrigation practices.
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Abdukarimov, B.A. "OPTIMIZATION OF WORKING PARAMETERS OF NEW SOLAR AIR HEATERS." GOLDEN BRAIN 1, no. 32 (2023): 16–20. https://doi.org/10.5281/zenodo.10205810.

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Silnov, D. V., K. R. Urazakov, and B. M. Latypov. "PROTECTIVE DEVICE FOR SUBMERSIBLE ELECTRICALLY DRIVEN CENTRIFUGAL PUMP UNIT." Petroleum Engineering 20, no. 1 (2022): 143. http://dx.doi.org/10.17122/ngdelo-2022-1-143-149.

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Syah, Rahmad. "PERANCANGAN ALAT POMPA AIR DENGAN SISTEM RENDAM PENGGERAKNYA MENGGUNAKAN MOTOR LISTRIK." Jurnal Teknik Mesin dan Pembelajaran 3, no. 2 (2020): 92. http://dx.doi.org/10.17977/um054v3i2p92-98.

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Abstract: The pump is a liquid suction device where its function is to drain a liquid from an area of small pressure to an area of large pressure. Submersible pump (submersible pump) is a type of pump where the work system is placed in full water, the pump is damaged if the water is not in full condition. This type of pump must have a drinking water level so that the pump can operate properly, and the life of the pump can last a long time. The submersible pump is one type of centrifugal pump. The centrifugal pump has a way of operating, the change from the fluid velocity then changes to moving as dynamically as possible through the vanes experiencing rotation in the pump housing. Keyword: Pump, Water, Centrifugal, Immerse
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I., GLADJ, ROMANIUK M., and BANDURA I. "Voltage control of submersible electric motors." Journal of Electrical and power engineering 29, no. 2 (2023): 22–29. http://dx.doi.org/10.31474/2074-2630-2023-2-22-29.

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The methods and means of voltage control on the clamps of submersible electric motors of electric drills are considered. The peculiarities of the submersible electric motor as a consumer of electrical energy when it is powered by three-phase voltage via a cable line with asymmetric electrical resistances of the phases are revealed. The main downhole factors influencing the functioning of the submersible electric motor that rotates the drill bit during drilling of deep oil and gas wells are analyzed. The impact of the temperature of the drilling fluid on the value of the active resistance of the cable cores and the drill pipe in deep drilling conditions has been updated. The results of the analysis of known technical solutions and concepts regarding the possibility of voltage control on the clamps of submersible motors, which would implement its physical measurement in industrial conditions, are presented. A method of analytically calculating the phase voltages on the clamps of the submersible electric motor of the electric drill, which is powered by an electric cable with asymmetric electric resistances of the phases, is proposed. The possibility of practical implementation of a laboratory installation based on the proposed method of calculating phase voltages on the clamps of the submersible electric motor of an electric drill is shown. For the practical implementation of the method of analytical calculation of phase voltages on the clamps of a submersible electric motor, the feasibility of using digital processing of signals from current and voltage transmitters located on the surface during oil or gas well drilling is substantiated. The advantages of the proposed method of controlling the voltage on the clamps of the submersible electric motor of the electric drill are the consideration of the electrical parameters of specific power supply cables obtained as a result of auxiliary measurements, and the possibility of technical implementation on a modern element base. The development and implementation of a device for monitoring phase voltages on the clamps of the submersible electric motor of an electric drill will increase the operational reliability and efficiency of drilling wells with an electric drill, which will reduce their cost.
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Dissertations / Theses on the topic "Submersible device"

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Молошний, Олександр Миколайович, Александр Николаевич Молошный та Oleksandr Mykolaiovych Moloshnyi. "Вплив конструкції підвідного пристрою герметичного моноблочного насоса з порожнистим валом на його робочий процес та характеристики". Thesis, Сумський державний університет, 2019. http://essuir.sumdu.edu.ua/handle/123456789/75137.

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У дисертаційній роботі подане нове вирішення наукової задачі, що полягає в удосконаленні конструкції герметичного моноблочного насосу з порожнистим валом на основі результатів наукових досліджень впливу особливостей конструкції підвідного пристрою на течію та енергетичні процеси в проточній частині насоса і елементах електродвигуна. Розроблено конструкцію герметичного відцентрового моноблочного насоса. Шляхом аналітичного дослідження комплексу факторів навантаження ротора (ваги, гідродинамічних та магнітних сил) визначено їх взаємний вплив та взаємозв’язок з робочим процесом підшипників ковзання Проведення числового моделювання дало можливість оцінити структуру потоку у проточній частині насоса, а саме вплив ОПП з обертовими стінками та дифузором перед входом в РК, на структуру потоку на вході в РК, параметри розподілення складових абсолютної швидкості та протікання кавітаційних процесів в ОПП та РК. Визначено діапазон оптимальних величин діаметрів ОПП з точки зору мінімальних гідравлічних втрат в ОПП та електричних втрат в роторних магнітопроводах електродвигуна за умови порожнистого валу насоса з коефіцієнтом швидкохідності (ns) в діапазоні від 60 до 70. Встановлено що перші прояви кавітації спостерігаються в РК, зменшення діаметру ОПП призводить до зміни місця виникнення кавітації і напрямку її розповсюдження. Розроблені методичні рекомендації щодо проектування герметичних моноблочних насосів з порожнистим валом та врахування впливу геометричних параметрів ОПП на конструктивні особливості вхідної частини лопатей РК. Експериментально підтверджено результати, які отримано числовим моделюванням.<br>The work is focused on the pump construction, which ensures high performance correlated with the safety aspects. It leads to the application of the pump, where the likelihood of the failure of the unit is minimal. The double entry pumps are commonly used due to the reduction of the hydraulic forces and also hermetic units, with closed, seal-less construction. The thesis presents a new solution to the scientific problem, which focuses on the improvement of the design of a sealless double entry close coupled centrifugal pump with a hollow shaft. In this conception, the inside of the hollow shaft is an axial inlet device, which consists of a straight part and diffuser. The design of a sealless close coupled centrifugal pump has been developed. Conducted analyses are based on the results of the investigation of the influence of axial inlet device geometrical features on pump working process in order to achieve minimal energy losses in the flowing part of the pump. The mutual influence of the construction of plain bearings and forces acting on the motion elements of the pump was elaborated. The rotating parts are loaded with the hydrodynamic, magnetic and gravity forces, which are the preliminary design data of bearing. On the other hand, the construction of bearing is severely acting on the mentioned above forces, which leads to the crucial design problem. Conducted numerical simulations made it possible to estimate the flow structure in the flowing part of the pump. In detail, the influence of the axial inlet device with rotating walls and the diffuser before the impeller inlet on the performance of the pump was recognized. The range of optimum values of axial inlet device diameters is also determined in terms of minimum hydraulic losses in the axial inlet device and electric losses in the rotor magnetic circuits of the motor under the condition of a hollow pump shaft with specific speed (ns) in the range from 60 to 70. Moreover, the flow structure at the impeller inlet, the parameters of the distribution of the absolute velocity components and the cavitation processes in the axial inlet device and the impeller were investigated. It is established that the first appearance of the cavitation was observed in the impeller. The reduction of the axial inlet device diameter leads to the change in the locations of the cavitation zones and the direction of their distribution. The methodical recommendations for the design of sealless close-coupled pump with a hollow shaft and the influence of the geometric parameters of the axial inlet device on the structural features of the leading edge of the blades of the impeller were developed. The results obtained by the numerical simulation were experimentally confirmed.
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Book chapters on the topic "Submersible device"

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Zhao, X. L., R. Yan, J. Geng, L. D. Zhang, J. Wang, and C. Guedes Soares. "Coupling analysis of a semi-submersible platform with an array of wave energy devices." In Advances in Maritime Technology and Engineering. CRC Press, 2024. http://dx.doi.org/10.1201/9781003508779-55.

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"Surface Process Equipment." In Petroleum Engineering Explained: Basic Concepts for Novices. The Royal Society of Chemistry, 2020. http://dx.doi.org/10.1039/9781788016681-00266.

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So far, we have examined a range of equipment from pumping jacks to drill bits. We have seen how down-hole equipment such as electric submersible pumps and well-logging devices need to be designed to meet not only the harsh conditions down the well, but also must be designed to be used within a narrow diameter bore. In this chapter, we will look at some of the key elements of process equipment found at the surface. This equipment includes pumps and compressors, heat exchangers, units to separate gas from liquid, valves and sensors for measuring temperature, pressure and flow rates.
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"— Test sample — Referee sample . 5. Fundamentals of sampling 6. Size of samples 7. Number of samples 8. Containers for samples 8.1. Containers for non-solid materials, except bituminous emulsions 8.2. Containers for bituminous emulsions 8.3. Containers for solid materials 8.4. Size of containers 9. Protection and preservation of samples 10. Devices, arrangements, equipment and method of sampling 10.1. Permanently installed equipment 10.2. Sampling using submersible equipment 10.3. Sampling using hand tools 10.4. Sampling by coning and quartering 11. Sampling 11.1. General 11.2. Sampling at place of manufacture 11.3. Sampling at point of shipment delivery 12. Further treatment of samples 13. Form for report on sampling 1. SCOPE AND PURPOSE." In RILEM Technical Recommendations for the testing and use of construction materials. CRC Press, 1994. http://dx.doi.org/10.1201/9781482271362-191.

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Conference papers on the topic "Submersible device"

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Chen, Zhongming, Qilin Hua, Jiaqiang Xu, and Guozhen Shen. "A Submersible Soft Robot with Ultrasonic Echolocation Capabilities." In 2025 9th IEEE Electron Devices Technology & Manufacturing Conference (EDTM). IEEE, 2025. https://doi.org/10.1109/edtm61175.2025.11040556.

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Wang, Mingzhuo, Haotian Xu, Yuhao Zhang, Feiyang Wang, and Guangxiao Zhang. "Optimization of Search and Rescue Paths for Submersibles Using Monte Carlo Simulations and Whale Optimization Algorithm." In 2024 International Conference on Electronics and Devices, Computational Science (ICEDCS). IEEE, 2024. https://doi.org/10.1109/icedcs64328.2024.00227.

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Богданов, Роман Александрович. "EFFICIENCY OF THE SUBMERSIBLE COMBUSTION DEVICE GORENJE." In Научные исследования в современном мире. Теория и практика: сборник избранных статей Всероссийской (национальной) научно-практической конференции (Санкт-Петербург, Июнь 2021). Crossref, 2021. http://dx.doi.org/10.37539/nitp317.2021.23.89.005.

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Получены динамические характеристики производительности аппарата погружного горения от средних характеристик потока смеси и переменной глубине погружения горелки. The dynamic characteristics of the performance of the submersible combustion device are obtained from the average characteristics of the mixture flow and the variable immersion depth of gorenje.
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Gupta, Apurva, John Murray, Bin Li, Harish Mukundan, and Anis Hussain. "Use of a Stem Device for VIV Mitigation on a Dry Tree Semi-Submersible." In ASME 2009 28th International Conference on Ocean, Offshore and Arctic Engineering. ASMEDC, 2009. http://dx.doi.org/10.1115/omae2009-80010.

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The offshore industry is devoting considerable effort to develop a dry tree production Semi-submersible with motion characteristics similar to a Spar but with the functionality of a Tension Leg Platform (TLP) or a Semi-submersible in terms of fabrication, installation and commissioning. Installation of these Semi-submersibles in the Gulf of Mexico environment exposes the risers to high surface current which result in high fatigue damage due to Vortex Induced Vibration (VIV). In the existing dry tree production systems, the Spar shields the riser from the high velocity surface currents in depths to approximately 600 ft. In the dry tree Semi-submersible the upper sections of the risers are exposed to surface currents. In addition, most dry tree Semi-submersibles designs have to support Keel Joints similar to a Spar. Thus, installing and replacing conventional VIV mitigation devices like the fairings and strakes could become difficult. In comparison, the TLP has no keel guides making it easier to install risers with strakes or fairings to improve the riser’s response to currents in terms of VIV. There are two basic proven techniques to reduce VIV damage on a riser. These involve application of standard fairings or strakes and direct protection of an exposed riser to currents. This paper discusses a methodology for VIV suppression using a riser stem. This mechanism does not reduce the VIV directly on the riser, but it in fact shields the riser from the surface currents, and thus reduces the fatigue damage on risers. This riser is shielded inside a conduit section called a stem which extends from the deck of the Semi-submersible to the keel. The paper quantifies and discusses the reduction in fatigue damage when the stem is used. The analysis is based on typical deep water current conditions for the Gulf of Mexico.
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Cheim, Luiz, Poorvi Patel, Gregory Cole, Will Eakins, and Gregory Rossano. "Submersible Transformer Inspection Device a Change of Paradigm." In 2018 IEEE/PES Transmission and Distribution Conference and Exposition (T&D). IEEE, 2018. http://dx.doi.org/10.1109/tdc.2018.8440514.

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Pan, Ding, and Ziyu Lei. "Mechanical Analysis for a Semi-Submersible Wave Elimination Device." In 2022 IEEE 13th International Conference on Mechanical and Intelligent Manufacturing Technologies (ICMIMT). IEEE, 2022. http://dx.doi.org/10.1109/icmimt55556.2022.9845256.

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Sanford, Avery, Marcela Lopez, Jarod Johnson, et al. "Sailboat-Mounted Submersible Device for Ocean and Atmospheric Data Collection." In 2021 Waste-management Education Research (WERC). IEEE, 2021. http://dx.doi.org/10.1109/werc52047.2021.9477544.

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Sabitov, Ruslan V. "Application of a Submersible Reactive Power Compensation Device in Oil Production." In 2023 Seminar on Industrial Electronic Devices and Systems (IEDS). IEEE, 2023. http://dx.doi.org/10.1109/ieds60447.2023.10426429.

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Van Spankeren, Michael Hendrik, and Miguel Angel Hernandez. "Autonomous Corrosion and Scale Management in Electric Submersible Pump Wells." In Abu Dhabi International Petroleum Exhibition & Conference. SPE, 2021. http://dx.doi.org/10.2118/207732-ms.

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Abstract Producers find a considerable amount of their operating expense (OPEX) comes from managing risks associated with corrosion and scale. Monitoring and chemical adjustment workflows are typically manual, and performed at low frequencies, leading to delays in event detection. As a result, the potential for negative events such as production shutdowns and well failures increase. This project's scope integrates chemistry domain experience with edge analytics, machine learning models, and intelligent equipment, to transform manual processes into an autonomous solution. The goal is to optimize operations, reduce well failures and workover costs, and maximize production. This solution is currently deployed in an oilfield, that has been historically challenged with a high number of electric submersible pump (ESP) failures due to corrosion and scale that resulted in significant production losses and unforeseen workover costs. The designed digital architecture supports autonomous management of scale and corrosion through remote monitoring and automated chemical injection. Real-time data is acquired from connected equipment, processed in an edge device running artificial intelligence, and autonomously sent to chemical pumps. Data from sensors, connected devices, and models are visualized in cloud applications, or integrated into existing client systems for end user analysis and full visibility of the entire process. The results show highly accurate models, precise chemical injection, and a reduction of well failures.
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Zhou, Puzhe, Keren Xie, Shijun Wu, and Canjun Yang. "A Long-stroke Submersible Solenoid Actuator Used for Underwater Release Device of Hybrid Profiler." In OCEANS 2018 MTS/IEEE Charleston. IEEE, 2018. http://dx.doi.org/10.1109/oceans.2018.8604796.

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