Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method
Abstract. The goal of this work is to identify the best alternatives that allow for improving the thermal efficiency of a shell and tube heat exchanger in real operating conditions. The main motivation for carrying out the research is based on the need identified, together with the oil, natural gas,...
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| Format: | Trabajo de grado (Pregrado y/o Especialización) |
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Universidad Antonio Nariño
2023
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| author | Ravelo Mendivelso Karol Yuliete Villate Mercy Tatiana Hernandez, José D. Miranda, Orlando M. Pacheco, Pedro J. Campusano, Manuel J. |
| author2 | Villate Mercy Tatiana |
| author_facet | Villate Mercy Tatiana Ravelo Mendivelso Karol Yuliete Villate Mercy Tatiana Hernandez, José D. Miranda, Orlando M. Pacheco, Pedro J. Campusano, Manuel J. |
| author_sort | Ravelo Mendivelso Karol Yuliete |
| collection | DSpace |
| description | Abstract. The goal of this work is to identify the best alternatives that allow for improving the
thermal efficiency of a shell and tube heat exchanger in real operating conditions. The main
motivation for carrying out the research is based on the need identified, together with the oil,
natural gas, and alternative energy industry, to analyze and learn about the main criteria that
directly impact the thermal efficiency of a heat exchanger. The applied methodology was based on
the AHP (Analytic Hierarchy Process) multicriteria method. Three relevant criteria were identified:
Thermodynamic, Hydrodynamic, and Economic. Additionally, a complete analysis of 9 sub-criteria
(i.e. energy and exergetic analysis of the process, analysis of the thermodynamic properties of the
fluids; pressure drop, volumetric flow of hot and cold fluids; energy costs, maintenance, operation
and geometry of the heat exchanger) allowed us to conclude that the best strategy to increase the
thermal efficiency of a heat exchanger in real operating conditions consists of using innovative
online cleaning prototypes that use abrasive spheres. This will allow the heat exchanger to be
cleaned simultaneously with its operation, reducing downtime and maintenance times/costs. |
| format | Trabajo de grado (Pregrado y/o Especialización) |
| id | repositorio.uan.edu.co-123456789-8511 |
| institution | Repositorio Digital UAN |
| language | eng |
| publishDate | 2023 |
| publisher | Universidad Antonio Nariño |
| record_format | dspace |
| spelling | repositorio.uan.edu.co-123456789-85112024-10-09T23:36:16Z Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method Ravelo Mendivelso Karol Yuliete Villate Mercy Tatiana Hernandez, José D. Miranda, Orlando M. Pacheco, Pedro J. Campusano, Manuel J. Villate Mercy Tatiana AHP Rendimiento Hidrodinámico MCDM Intercambiador de calor de carcasa y tubos Eficiencia térmica AHP Hydrodynamic performance MCDM Shell-and-tube heat exchanger Abstract. The goal of this work is to identify the best alternatives that allow for improving the thermal efficiency of a shell and tube heat exchanger in real operating conditions. The main motivation for carrying out the research is based on the need identified, together with the oil, natural gas, and alternative energy industry, to analyze and learn about the main criteria that directly impact the thermal efficiency of a heat exchanger. The applied methodology was based on the AHP (Analytic Hierarchy Process) multicriteria method. Three relevant criteria were identified: Thermodynamic, Hydrodynamic, and Economic. Additionally, a complete analysis of 9 sub-criteria (i.e. energy and exergetic analysis of the process, analysis of the thermodynamic properties of the fluids; pressure drop, volumetric flow of hot and cold fluids; energy costs, maintenance, operation and geometry of the heat exchanger) allowed us to conclude that the best strategy to increase the thermal efficiency of a heat exchanger in real operating conditions consists of using innovative online cleaning prototypes that use abrasive spheres. This will allow the heat exchanger to be cleaned simultaneously with its operation, reducing downtime and maintenance times/costs. Abstract. The goal of this work is to identify the best alternatives that allow for improving the thermal efficiency of a shell and tube heat exchanger in real operating conditions. The main motivation for carrying out the research is based on the need identified, together with the oil, natural gas, and alternative energy industry, to analyze and learn about the main criteria that directly impact the thermal efficiency of a heat exchanger. The applied methodology was based on the AHP (Analytic Hierarchy Process) multicriteria method. Three relevant criteria were identified: Thermodynamic, Hydrodynamic, and Economic. Additionally, a complete analysis of 9 sub-criteria (i.e. energy and exergetic analysis of the process, analysis of the thermodynamic properties of the fluids; pressure drop, volumetric flow of hot and cold fluids; energy costs, maintenance, operation and geometry of the heat exchanger) allowed us to conclude that the best strategy to increase the thermal efficiency of a heat exchanger in real operating conditions consists of using innovative online cleaning prototypes that use abrasive spheres. This will allow the heat exchanger to be cleaned simultaneously with its operation, reducing downtime and maintenance times/costs. Ingeniero(a) Mecánico(a) Pregrado Presencial Investigación 2023-08-16T03:03:25Z 2023-08-16T03:03:25Z 2022-11-30 Trabajo de grado (Pregrado y/o Especialización) info:eu-repo/semantics/acceptedVersion http://purl.org/coar/resource_type/c_7a1f http://purl.org/coar/version/c_970fb48d4fbd8a85 http://repositorio.uan.edu.co/handle/123456789/8511 Cui, X., Zhang, H., Guo, J., Huai, X., Xu, M. 2019. Analysis Of Two‐Stage Waste Heat Recovery Based on Natural Gas‐Fired Boiler. International Journal of Energy Research, Volume 43(14), pp. 8898–8912 Frota, M.N., Castro-Pacheco, E.R., Hernández-Vásquez, J.D., da-Silva, R.P.M., 2021a. Alternative Method for Assessing The Effectiveness of Heat Exchangers. Measurement: Sensors, Volume 18, p. 100066 Frota, M.N., Hernández-Vásquez, J.D., Castro-Pacheco, E.R., Germano, S.B., Jr, J.B., 2019. Enhancing the Effectiveness of Hydro Generator Heat Exchangers Through the Control of Measurement Uncertainties. In: XIII Heat Exchanger Fouling and Cleaning Conference, Warsaw, Poland Frota, M.N., Hernández-Vásquez, J.D., Castro-Pacheco, R.P., da-Silva, M., 2021b. An Adapted Version of The Ε-Ntu Method For Assessing The Effectiveness of Multiple-Pass Heat 534 Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method Exchangers of Hydrogenerators. In: 15th Gowri, N.V., Isaac, J.S., Muralikrishna, T., Babu, G.S., Depoures, M.V., Sekar, S., Sasirekha, P., Ramesh, M., Prabhakar, S., 2022. Genetic Algorithm Integrated Fuzzy AHP-VIKOR Approach for the Investigation of W-Cut Insert Heat Exchanger for Cooling of Dielectric Fluid Used in Ultra-High Voltage Transformer. Advances in Materials Science and Engineering, Volume 2022, p. 2819688 Hazza, M.H.A., Abdelwahed, A., Ali, M.Y., Sidek, A.B.A., 2022. An Integrated Approach for Supplier Evaluation and Selection using the Delphi Method and Analytic Hierarchy Process (AHP): A New Framework. International Journal of Technology, Volume 13(1), pp. 16–25 Kadoi, N., Re-ep, N.B., Divjak, B., 2017. Decision Making with The Analytical Network Process. In: 14th International Symposium on Operations Research. Slovenia He, F., Nagano, K., Seol, S.H., Togawa, J., 2022. Thermal Performance Improvement of AHP Using Corrugated Heat Exchanger by Dip-Coating Method with Mass Recovery. Energy, Volume 239, p. 122418 Keklikcioglu, O., Günes, S., Senyigit, E., Akcadirci, E., Ozceyhan, V., 2022. The Optimization of The Thermal and Hydraulic Characteristics of a Tube With Twisted Tapes Using Taguchi-Based-AHP-TOPSIS Approach. Journal of Thermal Analysis and Calorimetry, Volume 2022, pp. 1–13 Krishankumar, R., Nimmagadda, S.S., Rani, P., Mishra, A.R., Ravichandran, K.S., Gandomi, A.H., 2021. Solving Renewable Energy Source Selection Problems Using a Q-Rung Orthopair Fuzzy-Based Integrated Decision-Making Approach. Journal of Cleaner Production, Volume 279, p. 123329 instname:Universidad Antonio Nariño reponame:Repositorio Institucional UAN repourl:https://repositorio.uan.edu.co/ eng Acceso a solo metadatos Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) https://creativecommons.org/licenses/by-nc-nd/4.0/ info:eu-repo/semantics/closedAccess http://purl.org/coar/access_right/c_14cb application/pdf application/pdf application/pdf Universidad Antonio Nariño Ingeniería Mecánica Facultad de Ingeniería Mecánica, Electrónica y Biomédica Tunja |
| spellingShingle | AHP Rendimiento Hidrodinámico MCDM Intercambiador de calor de carcasa y tubos Eficiencia térmica AHP Hydrodynamic performance MCDM Shell-and-tube heat exchanger Ravelo Mendivelso Karol Yuliete Villate Mercy Tatiana Hernandez, José D. Miranda, Orlando M. Pacheco, Pedro J. Campusano, Manuel J. Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method |
| title | Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method |
| title_full | Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method |
| title_fullStr | Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method |
| title_full_unstemmed | Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method |
| title_short | Thermal and Hydrodynamic Performance Analysis of a Shell and Tube Heat Exchanger Using the AHP Multicriteria Method |
| title_sort | thermal and hydrodynamic performance analysis of a shell and tube heat exchanger using the ahp multicriteria method |
| topic | AHP Rendimiento Hidrodinámico MCDM Intercambiador de calor de carcasa y tubos Eficiencia térmica AHP Hydrodynamic performance MCDM Shell-and-tube heat exchanger |
| url | http://repositorio.uan.edu.co/handle/123456789/8511 |
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