A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications

Giada Kyaw Oo D'Amore; Francesco Mauro; Mitja Morgut; Giovanni Rognoni; Marco Biot

doi:10.3233/PMST220002

A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications

Giada Kyaw Oo D'Amore, Francesco Mauro, Mitja Morgut, Giovanni Rognoni, Marco Biot

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

Abstract

In recent years, green shipping becomes one of the fundamental challenges for the marine industry: the limits imposed on ship emissions by IMO (International Maritime Organization) are increasingly stringent, especially in terms of SOx (sulfur oxides). The installation on board of scrubbers has proved to be a helpful solution to SOx abetment, in particular for the ships already in navigation: it allows to respect the limits imposed by the IMO even with the use of HFOs (Heavy Fuel Oils), so without the need to carry out a complete refitting of the propulsion system. However, such systems, usually installed in the funnels, have large dimensions. The integration between components is the best method to optimize the spaces, facilitating the installation of the scrubbers on board. The present work investigates a combined CFD-FEM (Computational Fluid Dynamics-Finite Element Method) methodology to evaluate the acoustic performances of a model-scale scrubber. Some papers in the literature consider the acoustic properties of SCRs (Selective Catalytic Reduction systems) for marine applications, while a thorough study on scrubbers' performances is missing. Independent CFD or FEM calculations may evaluate the acoustic properties of the scrubber. However, the combined methodology reduces the computational burden by about 90% compared to the CFD modelling. Moreover, it gives the advantage of considering the influence of flow on acoustic properties, which is impossible for a fully FEM approach

Original language	English
Title of host publication	Technology and Science for the Ships of the Future - Proceedings of NAV 2022
Subtitle of host publication	20th International Conference on Ship and Maritime Research
Editors	Enrico Rizzuto, Valerio Ruggiero
Publisher	IOS Press
Pages	1-8
Number of pages	8
ISBN (Electronic)	9781643682969
DOIs	https://doi.org/10.3233/PMST220002
Publication status	Published - 2022
Externally published	Yes
Event	20th International Conference on Ship and Maritime Research, NAV 2022 - La Spezia, Italy Duration: 15 Jun 2022 → 17 Jun 2022

Publication series

Name	Progress in Marine Science and Technology
Volume	6
ISSN (Print)	2543-0955
ISSN (Electronic)	2543-0963

Conference

Conference	20th International Conference on Ship and Maritime Research, NAV 2022
Country/Territory	Italy
City	La Spezia
Period	15/06/22 → 17/06/22

Keywords

CFD
FEM
Scrubber
Silencer
Transmission Loss

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.3233/PMST220002

Cite this

Kyaw Oo D'Amore, G., Mauro, F., Morgut, M., Rognoni, G., & Biot, M. (2022). A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications. In E. Rizzuto, & V. Ruggiero (Eds.), Technology and Science for the Ships of the Future - Proceedings of NAV 2022: 20th International Conference on Ship and Maritime Research (pp. 1-8). (Progress in Marine Science and Technology; Vol. 6). IOS Press. https://doi.org/10.3233/PMST220002

Kyaw Oo D'Amore, Giada ; Mauro, Francesco ; Morgut, Mitja ; Rognoni, Giovanni ; Biot, Marco. / A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications. Technology and Science for the Ships of the Future - Proceedings of NAV 2022: 20th International Conference on Ship and Maritime Research. editor / Enrico Rizzuto ; Valerio Ruggiero. IOS Press, 2022. pp. 1-8 (Progress in Marine Science and Technology).

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title = "A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications",

abstract = "In recent years, green shipping becomes one of the fundamental challenges for the marine industry: the limits imposed on ship emissions by IMO (International Maritime Organization) are increasingly stringent, especially in terms of SOx (sulfur oxides). The installation on board of scrubbers has proved to be a helpful solution to SOx abetment, in particular for the ships already in navigation: it allows to respect the limits imposed by the IMO even with the use of HFOs (Heavy Fuel Oils), so without the need to carry out a complete refitting of the propulsion system. However, such systems, usually installed in the funnels, have large dimensions. The integration between components is the best method to optimize the spaces, facilitating the installation of the scrubbers on board. The present work investigates a combined CFD-FEM (Computational Fluid Dynamics-Finite Element Method) methodology to evaluate the acoustic performances of a model-scale scrubber. Some papers in the literature consider the acoustic properties of SCRs (Selective Catalytic Reduction systems) for marine applications, while a thorough study on scrubbers' performances is missing. Independent CFD or FEM calculations may evaluate the acoustic properties of the scrubber. However, the combined methodology reduces the computational burden by about 90% compared to the CFD modelling. Moreover, it gives the advantage of considering the influence of flow on acoustic properties, which is impossible for a fully FEM approach ",

keywords = "CFD, FEM, Scrubber, Silencer, Transmission Loss",

author = "{Kyaw Oo D'Amore}, Giada and Francesco Mauro and Mitja Morgut and Giovanni Rognoni and Marco Biot",

year = "2022",

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language = "English",

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booktitle = "Technology and Science for the Ships of the Future - Proceedings of NAV 2022",

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Kyaw Oo D'Amore, G, Mauro, F, Morgut, M, Rognoni, G & Biot, M 2022, A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications. in E Rizzuto & V Ruggiero (eds), Technology and Science for the Ships of the Future - Proceedings of NAV 2022: 20th International Conference on Ship and Maritime Research. Progress in Marine Science and Technology, vol. 6, IOS Press, pp. 1-8, 20th International Conference on Ship and Maritime Research, NAV 2022, La Spezia, Italy, 15/06/22. https://doi.org/10.3233/PMST220002

A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications. / Kyaw Oo D'Amore, Giada; Mauro, Francesco; Morgut, Mitja; Rognoni, Giovanni; Biot, Marco.

Technology and Science for the Ships of the Future - Proceedings of NAV 2022: 20th International Conference on Ship and Maritime Research. ed. / Enrico Rizzuto; Valerio Ruggiero. IOS Press, 2022. p. 1-8 (Progress in Marine Science and Technology; Vol. 6).

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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T1 - A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications

AU - Kyaw Oo D'Amore, Giada

AU - Mauro, Francesco

AU - Morgut, Mitja

AU - Rognoni, Giovanni

AU - Biot, Marco

PY - 2022

Y1 - 2022

N2 - In recent years, green shipping becomes one of the fundamental challenges for the marine industry: the limits imposed on ship emissions by IMO (International Maritime Organization) are increasingly stringent, especially in terms of SOx (sulfur oxides). The installation on board of scrubbers has proved to be a helpful solution to SOx abetment, in particular for the ships already in navigation: it allows to respect the limits imposed by the IMO even with the use of HFOs (Heavy Fuel Oils), so without the need to carry out a complete refitting of the propulsion system. However, such systems, usually installed in the funnels, have large dimensions. The integration between components is the best method to optimize the spaces, facilitating the installation of the scrubbers on board. The present work investigates a combined CFD-FEM (Computational Fluid Dynamics-Finite Element Method) methodology to evaluate the acoustic performances of a model-scale scrubber. Some papers in the literature consider the acoustic properties of SCRs (Selective Catalytic Reduction systems) for marine applications, while a thorough study on scrubbers' performances is missing. Independent CFD or FEM calculations may evaluate the acoustic properties of the scrubber. However, the combined methodology reduces the computational burden by about 90% compared to the CFD modelling. Moreover, it gives the advantage of considering the influence of flow on acoustic properties, which is impossible for a fully FEM approach

AB - In recent years, green shipping becomes one of the fundamental challenges for the marine industry: the limits imposed on ship emissions by IMO (International Maritime Organization) are increasingly stringent, especially in terms of SOx (sulfur oxides). The installation on board of scrubbers has proved to be a helpful solution to SOx abetment, in particular for the ships already in navigation: it allows to respect the limits imposed by the IMO even with the use of HFOs (Heavy Fuel Oils), so without the need to carry out a complete refitting of the propulsion system. However, such systems, usually installed in the funnels, have large dimensions. The integration between components is the best method to optimize the spaces, facilitating the installation of the scrubbers on board. The present work investigates a combined CFD-FEM (Computational Fluid Dynamics-Finite Element Method) methodology to evaluate the acoustic performances of a model-scale scrubber. Some papers in the literature consider the acoustic properties of SCRs (Selective Catalytic Reduction systems) for marine applications, while a thorough study on scrubbers' performances is missing. Independent CFD or FEM calculations may evaluate the acoustic properties of the scrubber. However, the combined methodology reduces the computational burden by about 90% compared to the CFD modelling. Moreover, it gives the advantage of considering the influence of flow on acoustic properties, which is impossible for a fully FEM approach

KW - CFD

KW - FEM

KW - Scrubber

KW - Silencer

KW - Transmission Loss

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Kyaw Oo D'Amore G, Mauro F, Morgut M, Rognoni G, Biot M. A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications. In Rizzuto E, Ruggiero V, editors, Technology and Science for the Ships of the Future - Proceedings of NAV 2022: 20th International Conference on Ship and Maritime Research. IOS Press. 2022. p. 1-8. (Progress in Marine Science and Technology). https://doi.org/10.3233/PMST220002

A Combined CFD-FEM Approach to Evaluate Acoustic Performances of an Integrated Scrubber-Silencer for Marine Applications

Abstract

Publication series

Conference

Keywords

UN SDGs

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