Flow regulation at constant head in feedwater pumps in a sugar industry

In this paper the feasibility of energy saving by implementing flow regulation at constant load in feedwater pumps in a sugar industry is studied. As regulation strategy, the use of a variable speed drive in the hydraulic system is proposed. For the project evaluation, the Net Present Value and Payb...

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Autores:
Gómez, Julio R.
Sousa, Vladimir
Quintana, Mario S.
Viego, Percy R.
Hernández, Hernán
Quispe, Enrique C.
Tipo de recurso:
Fecha de publicación:
2018
Institución:
Universidad Simón Bolívar
Repositorio:
Repositorio Digital USB
Idioma:
eng
OAI Identifier:
oai:bonga.unisimon.edu.co:20.500.12442/2448
Acceso en línea:
http://hdl.handle.net/20.500.12442/2448
Palabra clave:
Energy saving
Feedwater pumps
Flow regulation
Sugar cane industry
Variable speed drives
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License
Licencia de Creative Commons Reconocimiento-NoComercial-CompartirIgual 4.0 Internacional
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dc.title.eng.fl_str_mv Flow regulation at constant head in feedwater pumps in a sugar industry
title Flow regulation at constant head in feedwater pumps in a sugar industry
spellingShingle Flow regulation at constant head in feedwater pumps in a sugar industry
Energy saving
Feedwater pumps
Flow regulation
Sugar cane industry
Variable speed drives
title_short Flow regulation at constant head in feedwater pumps in a sugar industry
title_full Flow regulation at constant head in feedwater pumps in a sugar industry
title_fullStr Flow regulation at constant head in feedwater pumps in a sugar industry
title_full_unstemmed Flow regulation at constant head in feedwater pumps in a sugar industry
title_sort Flow regulation at constant head in feedwater pumps in a sugar industry
dc.creator.fl_str_mv Gómez, Julio R.
Sousa, Vladimir
Quintana, Mario S.
Viego, Percy R.
Hernández, Hernán
Quispe, Enrique C.
dc.contributor.author.none.fl_str_mv Gómez, Julio R.
Sousa, Vladimir
Quintana, Mario S.
Viego, Percy R.
Hernández, Hernán
Quispe, Enrique C.
dc.subject.eng.fl_str_mv Energy saving
Feedwater pumps
Flow regulation
Sugar cane industry
Variable speed drives
topic Energy saving
Feedwater pumps
Flow regulation
Sugar cane industry
Variable speed drives
description In this paper the feasibility of energy saving by implementing flow regulation at constant load in feedwater pumps in a sugar industry is studied. As regulation strategy, the use of a variable speed drive in the hydraulic system is proposed. For the project evaluation, the Net Present Value and Payback Period techniques are used. Among the variables considered are the price of energy, the equipment useful life, financial data and those related to environmental impact. As a result, it was found that if only a commercial approach is considered, the energy saving strategy is profitable but not attractive, because investment is recovered in a period close to the useful life of technology. However, if a government focus that encourages the implementation of these energies saving strategies is considered, the investment of the project recovers in a short time.
publishDate 2018
dc.date.issued.none.fl_str_mv 2018-11
dc.date.accessioned.none.fl_str_mv 2019-01-16T16:32:21Z
dc.date.available.none.fl_str_mv 2019-01-16T16:32:21Z
dc.type.eng.fl_str_mv article
dc.type.coar.fl_str_mv http://purl.org/coar/resource_type/c_6501
dc.identifier.issn.none.fl_str_mv 20888708
dc.identifier.uri.none.fl_str_mv http://hdl.handle.net/20.500.12442/2448
identifier_str_mv 20888708
url http://hdl.handle.net/20.500.12442/2448
dc.language.iso.eng.fl_str_mv eng
language eng
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dc.rights.license.spa.fl_str_mv Licencia de Creative Commons Reconocimiento-NoComercial-CompartirIgual 4.0 Internacional
rights_invalid_str_mv Licencia de Creative Commons Reconocimiento-NoComercial-CompartirIgual 4.0 Internacional
http://purl.org/coar/access_right/c_abf2
dc.publisher.eng.fl_str_mv Institute of Advanced Engineering and Science
dc.source.eng.fl_str_mv International Journal of Electrical and Computer Engineering (IJECE)
dc.source.spa.fl_str_mv Vol. 9, No. 2 (2018)
institution Universidad Simón Bolívar
dc.source.uri.eng.fl_str_mv DOI: 10.11591/ijece.v9i2.pp.732-741
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spelling Licencia de Creative Commons Reconocimiento-NoComercial-CompartirIgual 4.0 Internacionalhttp://purl.org/coar/access_right/c_abf2Gómez, Julio R.c5709814-cbfb-4ec5-b421-23e017d777b4-1Sousa, Vladimirc12fff46-f181-4484-8e86-36aab9e7df6c-1Quintana, Mario S.38524a7c-ab08-4897-b452-dd44991f6633-1Viego, Percy R.5ba7253d-3978-4567-886b-0d48babd9a2b-1Hernández, Hernán4001d477-d9e3-4a56-ba2e-76dbe44bb0c9-1Quispe, Enrique C.ef6ab33d-23e3-4221-81b9-a11897efb30d-12019-01-16T16:32:21Z2019-01-16T16:32:21Z2018-1120888708http://hdl.handle.net/20.500.12442/2448In this paper the feasibility of energy saving by implementing flow regulation at constant load in feedwater pumps in a sugar industry is studied. As regulation strategy, the use of a variable speed drive in the hydraulic system is proposed. For the project evaluation, the Net Present Value and Payback Period techniques are used. Among the variables considered are the price of energy, the equipment useful life, financial data and those related to environmental impact. As a result, it was found that if only a commercial approach is considered, the energy saving strategy is profitable but not attractive, because investment is recovered in a period close to the useful life of technology. However, if a government focus that encourages the implementation of these energies saving strategies is considered, the investment of the project recovers in a short time.engInstitute of Advanced Engineering and ScienceInternational Journal of Electrical and Computer Engineering (IJECE)Vol. 9, No. 2 (2018)DOI: 10.11591/ijece.v9i2.pp.732-741Energy savingFeedwater pumpsFlow regulationSugar cane industryVariable speed drivesFlow regulation at constant head in feedwater pumps in a sugar industryarticlehttp://purl.org/coar/resource_type/c_6501US Energy Information Administration, “DOE/EIA-0484 International Energy Outlook 2016 with Projections to 2040,” May 2016.A. Dietmair and A. Verl, “Energy Consumption Assessment and Optimisation in the Design and use Phase of Machine Tools,” in Proceedings of the 17th CIRP International Conference on Life Cycle Engineering, 2010, pp. 116-121.S. P. Singh, “Technical Change and Productivity Growth in the Indian Sugar Industry,” Procedia Economics and Finance, vol. 39, pp. 131-139, 2016.M. Morato, et al., “Future Hybrid Local Energy Generation Paradigm for the Brazilian Sugarcane Industry Scenario,” International Journal of Electrical Power & Energy Systems, vol. 101, pp. 139-150, 2018.J. Q. Albarelli, et al., “Product Diversification To Enhance Economic Viability of Second Generation Ethanol Production in Brazil: The Case of the Sugar and Ethanol Joint Production,” Chemical Engineering Research and Design, vol. 92, no. 8, pp. 1470-1481, 2014.M. K. Chauhan, et al., “Life Cycle Assessment of Sugar Industry: A Review,” Renewable and Sustainable Energy Reviews, vol. 15, no. 7, pp. 3445-3453, 2011.S. Sathitbun-anan, et al., “Energy Efficiency and Greenhouse Gas Emission Reduction Potentials in Sugar Production Processes in Thailand,” Energy for Sustainable Development, vol. 23, pp. 266-274, 2014.E.C., Quispe, et al., “Unbalanced Voltages Impacts on the Energy Performance of Induction Motors,” International Journal of Electrical and Computer Engineering (IJECE), vol. 8, no. 3, pp. 1412-1422, 2018.V. Sousa, et al., “Estimating Induction Motor Efficiency under no-controlled Conditions in the Presences of Unbalanced and Harmonics Voltages,” in 2015 CHILEAN Conference on Electrical, Electronics Engineering, Information and Communication Technologies (CHILECON), Santiago, 2015, pp. 567-5.V. Sousa, et al., “Shaft Power Estimation in Induction Motor Operating under Unbalanced and Harmonics Voltages,” IEEE Latin America Transactions, vol. 14, no. 5, pp. 2309-2315, 2016.M. Koor, et al., “Optimization of Pump Efficiencies with different Pumps Characteristics Working in Parallel Mode,” Advances in Engineering Software, vol. 101, pp. 69-76, 2016.V. Sousa, et al., “Harmonic Distortion Evaluation Generated by PWM Motor Drives in Electrical Industrial Systems,” International Journal of Electrical and Computer Engineering (IJECE), vol. 7, no. 6, pp. 3207-3216, 2017.V. Sousa, et al., “Analysis of Harmonic Distortion Generated by PWM Motor Drives,” in 2017 IEEE Workshop on Power Electronics and Power Quality Applications (PEPQA), Bogota, 2017, pp. 1-6.P. Olszewski, “Genetic Optimization and Experimental Verification of Complex Parallel Pumping Station with Centrifugal Pumps,” Applied Energy, vol. 178, pp. 527-539, 2016.Z. Ma and S. Wang, “An Optimal Control Strategy for Complex Building Central Chilled Water Systems for Practical and Real-time Applications,” Building and Environment, vol. 44, pp. 1188-1198, 2009.S. Wang, “Intelligent Buildings and Building Automation,” Spon Press, London, 2010, pp. 203.M. I. Jahmeerbacus, “Flow Rate Regulation of a Variable Speed Driven Pumping System using Fuzzy Logic,” in 4th International Conference on Electric Power and Energy Conversion Systems (EPECS), Sharjah, United Arab Emirates, 2015.F. E. Hoyos, et al., "Selection and Validation of Mathematical Models of Power Converters using Rapid Modeling and Control Prototyping Methods,” International Journal of Electrical and Computer Engineering (IJECE), vol. 8, no. 3, pp. 1551-1568, 2018.V. A. Shankar, et al., “Real Time Simulation of Variable Speed Parallel Pumping System,” Energy Procedia, vol. 142, pp. 2102-2108, 2017.J. Viholainen, “Energy-efficient Control Strategies for Variable Speed Driven Parallel Pumping Systems based on Pump Operation Point Monitoring with Frequency Converters,” Act Universitatis Lappeenrantaensis, 2014.F. J. Ferreira, et al., “Ecoanalysis of Variable-speed Drives for Flow Regulation in Pumping Systems,” IEEE Transactions on Industrial Electronics, vol. 58, no. 6, pp. 2117-2125, 2011.A. Sagastume, et al., “Electricity Management in the Production of Lead-acid Batteries: The Industrial Case of a Production plant in Colombia,” Journal of Cleaner Production, vol. 198, no. 10, pp. 1443-1458, 2018.J. R. Gómez, et al., “A New Energy Performance Indicator for Energy Management System of a wheat mill plant,” International Journal of Energy Economics and Policy, vol. 8, no.4, pp. 324-330, 2018.E. Hugot, “Handbook of Cane Sugar Engineering,” New York: Elsevier, 1986.M. D. Z. Izquierdo and J. J. S. Jiménez, “Operación óptima de bombas en paralelo empleando variadores de velocidad,” Ingenierías, vol. 13, no. 46, p. 57, 2010.C. A. Solano, et al., “Sistema de control de presión para el suministro de agua en la central de servicios del centro médico nacional la raza,” México, 2012.J. A. Saavedra, “Control de presión mediante variador de frecuencia y motobomba,” Chile, 2007.R. A. Castillo, “Automatización del sistema de bombas de agua fría de fábrica de tejidos imperial S. A.,” 2009.J. J. García, et al., “Modelado y simulación de una bomba centrífuga con motor monofásico en Simulink,” Revista Colombiana de Tecnologías de Avanzada, vol. 2, no. 22, pp. 78-84, 2013.P. Gómez, et al., “Procedimiento para la selección de la estrategia de regulación más adecuada en estaciones de bombeo,” in IV Jornadas de Ingeniería del Agua, JIA 2015, Córdoba, España, 2015, pp. 1191-1202.H. Díaz, et al., “Diseño de un sistema de control para obtener presión constante de agua,” in XXII Congreso Internacional de Ingeniería Eléctrica, Electrónica, Computación y Afines, Huancayo, Perú, 2015.J. R. Gómez, et al., “Experiencia de aplicación de accionamiento de velocidad variable. opción de alto comportamiento para la gestión energética,” in 48 Congreso de la ATAC, La Habana, 2002.Y. Delgado, “Estudio de factibilidad técnico-económica de regulación de la capacidad con variadores de frecuencia de las bombas de agua de alimentar de la CTE „Carlosma Manuel de Céspedes‟. Cienfuegos. Cuba,” 2014.J. A. Madrigal, et al., “Planificación energética para el ahorro de fueloil en una lavandería industrial,” Ingeniare. Revista chilena de ingeniería, vol. 26, no. 1, pp. 86-96, 2018.I. J. Karassik and R. Carter, “Bombas centrífugas. Selección, operación y mantenimiento,” Companhia Editorial Continental, 1966.Crane Co., “Flujo de fluidos en válvulas, accesorios y tuberías,” McGRAW-HILL, 1977.I. Salazar, et al., “Estimado de la reducción de la emisión de CO2 por accione de ahorro de electricidad en las condiciones de Cuba,” Ingeniería Energética, vol. 31, no. 3, pp. 1-5, 2010.Banco Central de Cuba, Circular 5/2011 y Circular 2/2012, La Habana, Cuba.Gaceta Oficial de la República de Cuba, Ley 113, artículo 97, La Habana, Cuba, 2012.ORIGINALPDF.pdfPDF.pdfPDFapplication/pdf541210https://bonga.unisimon.edu.co/bitstreams/54f771dc-5575-44e8-8f67-db28b330a048/downloadfbf9d392fd8f9878cb336a269cd14f40MD51LICENSElicense.txtlicense.txttext/plain; charset=utf-8368https://bonga.unisimon.edu.co/bitstreams/d56a1bf0-d419-4ad0-9df9-8653c75bce27/download3fdc7b41651299350522650338f5754dMD52TEXTFlow regulation at constant head in feedwater pumps in a sugar industry.pdf.txtFlow regulation at constant head in feedwater pumps in a sugar industry.pdf.txtExtracted texttext/plain37081https://bonga.unisimon.edu.co/bitstreams/d58b2da0-b74a-47bd-be63-9a59dfc85a37/download6d8b96f9d7f299778c8217b0a001e2f2MD53PDF.pdf.txtPDF.pdf.txtExtracted texttext/plain37778https://bonga.unisimon.edu.co/bitstreams/26c596c7-57ef-4656-a8e3-5d900c6640d4/downloadbf56eec2f832a2305beb2fd0fb694423MD55THUMBNAILFlow regulation at constant head in feedwater pumps in a sugar industry.pdf.jpgFlow regulation at constant head in feedwater pumps in a sugar industry.pdf.jpgGenerated Thumbnailimage/jpeg1603https://bonga.unisimon.edu.co/bitstreams/08602fac-1b11-4b31-8002-00d570189f9a/downloada83fbe311e8c0d1b1a610e4bee4e3a69MD54PDF.pdf.jpgPDF.pdf.jpgGenerated Thumbnailimage/jpeg5604https://bonga.unisimon.edu.co/bitstreams/552503c3-1657-4f4c-a675-f2fab4b8533b/downloade8d69a07e1d1ca1e57537cb88f094048MD5620.500.12442/2448oai:bonga.unisimon.edu.co:20.500.12442/24482024-07-25 03:39:56.726open.accesshttps://bonga.unisimon.edu.coRepositorio Digital Universidad Simón Bolívarrepositorio.digital@unisimon.edu.coPGEgcmVsPSJsaWNlbnNlIiBocmVmPSJodHRwOi8vY3JlYXRpdmVjb21tb25zLm9yZy9saWNlbnNlcy9ieS1uYy80LjAvIj48aW1nIGFsdD0iTGljZW5jaWEgQ3JlYXRpdmUgQ29tbW9ucyIgc3R5bGU9ImJvcmRlci13aWR0aDowIiBzcmM9Imh0dHBzOi8vaS5jcmVhdGl2ZWNvbW1vbnMub3JnL2wvYnktbmMvNC4wLzg4eDMxLnBuZyIgLz48L2E+PGJyLz5Fc3RhIG9icmEgZXN0w6EgYmFqbyB1bmEgPGEgcmVsPSJsaWNlbnNlIiBocmVmPSJodHRwOi8vY3JlYXRpdmVjb21tb25zLm9yZy9saWNlbnNlcy9ieS1uYy80LjAvIj5MaWNlbmNpYSBDcmVhdGl2ZSBDb21tb25zIEF0cmlidWNpw7NuLU5vQ29tZXJjaWFsIDQuMCBJbnRlcm5hY2lvbmFsPC9hPi4=

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