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Retrofitting Design of a Deep Drilling Rig Mud Pump Load Balancing System

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Publicado en:Energy Engineering : Journal of the Association of Energy Engineers vol. 122, no. 5 (2025), p. 1669
Autor principal: Pavković, Danijel
Otros Autores: Kristović, Pietro, Cipek, Mihael, Lisjak, Dragutin
Publicado:
Tech Science Press
Materias:
Field tests
Drilling fluids
Excitation
Current mirrors
D C motors
Electrical loads
Drilling rigs
Drilling muds
Geothermal energy
Closed loops
Control systems
Retrofitting
System effectiveness
Parallel connected
Feedback control
Power converters
Load balancing
Software
Control algorithms
Energy efficiency
Cost control
Energy consumption
Geothermal power
Field study
Acceso en línea:Citation/Abstract
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Resumen:In deep drilling applications, such as those for geothermal energy, there are many challenges, such as those related to efficient operation of the drilling fluid (mud) pumping system. Legacy drilling rigs often use paired, parallel-connected independent-excitation direct-current (DC) motors for mud pumps, that are supplied by a single power converter. This configuration results in electrical power imbalance, thus reducing its efficiency. This paper investigates this power imbalance issue in such legacy DC mud pump drive systems and offers an innovative solution in the form of a closed-loop control system for electrical load balancing. The paper first analyzes the drilling fluid circulation and electrical drive layout to develop an analytical model that can be used for electrical load balancing and related energy efficiency improvements. Based on this analysis, a feedback control system (so-called “current mirror” control system) is designed to balance the electrical load (i.e., armature currents) of parallel-connected DC machines by adjusting the excitation current of one of the DC machines, thus mitigating the power imbalance of the electrical drive. The proposed control system effectiveness has been validated, first through simulations, followed by experimental testing on a deep drilling rig during commissioning and field tests. The results demonstrate the practical viability of the proposed “current mirror” control system that can effectively and rather quickly equalize the armature currents of both DC machines in a parallel-connected electrical drive, and thus balance both the electrical and mechanical load of individual DC machines under realistic operating conditions of the mud pump electrical drive.
ISSN:0199-8595
1546-0118
0096-0608
0002-2284
0096-0594
DOI:10.32604/ee.2025.061916
Fuente:Science Database