Electric submersible pump behavior for pumping non-Newtonian fluids
Autor: | Christoph Marschall, Hans-Peter Pratscher, Reinhard Pongratz, Alexandru-Cosmin Ciufu, Michaela Gertrude Hoy, Clemens Langbauer |
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Rok vydání: | 2020 |
Předmět: |
Materials science
Field (physics) Rotational speed 02 engineering and technology Mechanics 010502 geochemistry & geophysics Geotechnical Engineering and Engineering Geology 01 natural sciences Viscoelasticity Non-Newtonian fluid Volumetric flow rate law.invention Fuel Technology 020401 chemical engineering law Torque Sensitivity (control systems) 0204 chemical engineering Submersible pump 0105 earth and related environmental sciences |
Zdroj: | Journal of Petroleum Science and Engineering. 195:107910 |
ISSN: | 0920-4105 |
DOI: | 10.1016/j.petrol.2020.107910 |
Popis: | The performance of two electric submersible pumps (ESP), when pumping non-Newtonian polymer fluids, was tested at a pump test facility of the university. The results are compared with existing models, and the de-rating coefficients are evaluated for the operating range of the pumps that allow a proper design of ESP field installations. Two different electric submersible pump types (82 stages and 7 stages) were tested at the newly-built pump testing facility. The initial tests were performed with water at several frequencies to check the pump's performances, and the results were compared with the manufacturer's catalog curves. The performance measurements included pressure, flow rate, torque, rotational speed, and temperature. Besides, an intake pressure sensitivity analysis was performed. The actual polymer tests were conducted for three HPAM polymer concentrations (400-ppm, 800-ppm, 1600-ppm), three rotational speeds, and several discharge pressures. Additionally, fluid samples were taken during all tests and were subsequently analyzed. The polymer test results showed that the performance reduction factors for both pump types and all frequencies are much higher than expected. However, the provided polymer concentrations have low viscosity. Most likely, non-newtonian fluid behavior, specifically its viscoelasticity, is responsible for this substantial performance loss. Head and rate reduction close to 50 percent was measured at the best efficiency point of the pumps. A comparison to existing models indicates a significant underestimation of the performance loss when pumping a polymer solution. Moreover, the mechanical shearing of the molecular polymer chains was minor. Known models for pump performance do not apply in this instance. Because of the complexity of the polymer-laden fluid, we cannot offer one that works, and so we recommend that anyone in this situation must perform an experimental performance test. The novelty of those experiments was the testing of two powerful electric submersible pumps, using a non-newtonian polymer fluid, to investigate the pump performance, performance correction coefficients, and compares appropriate correction models to apply the gained knowledge more quickly in the field. |
Databáze: | OpenAIRE |
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