Purpose This paper aims to present the design of a particular non-reactive test rig for combustion swirlers and first stage turbine nozzles. The test rig is required for important experimental activities aimed at the optimization of a specific class of gas turbines. Design/methodology/approach A multi-disciplinary team performed the design process by following a tailored design approach, which has been developed for the specific case. The design outcomes allowed to build a fully functional test rig to be introduced in a test cell and then to perform preliminary experiments about the fluid dynamic behaviour of the turbine elements. Findings The followed design approach allowed to efficiently perform the task, by supporting the information exchange among the different subjects involved in both the conceptual and the embodiment design of the test rig. Additionally, the performed experiments allowed to achieve a final configuration that makes the test rig a valuable test case for combustor-turbine interaction studies. Research limitations/implications The study described in this paper is focused on the design of a specific test rig, used for first validation tests. However, the achieved results (both in terms of design and test) constitutes the underpinning of the in-depth investigations to be performed in the next steps of the experimental campaign. Originality/value To the best of the authors’ knowledge, the present paper is the first one that comprehensively describes the design activity of an experimental test rig for turbine application, also providing indications about the specific methodological procedure used to manage the process.

Non-reactive test rig for combustor-turbine interaction studies in industrial gas turbines / Fiorineschi, Lorenzo; Bacci, Tommaso; Frillici, Francesco Saverio Saverio; Cubeda, Simone; Volpe, Yary; Rotini, Federico; Carfagni, Monica; Facchini, Bruno. - In: JOURNAL OF ENGINEERING, DESIGN AND TECHNOLOGY. - ISSN 1726-0531. - STAMPA. - 21:(2023), pp. 758-777. [10.1108/JEDT-02-2021-0085]

Non-reactive test rig for combustor-turbine interaction studies in industrial gas turbines

Fiorineschi, Lorenzo;Bacci, Tommaso;Frillici, Francesco Saverio Saverio;Cubeda, Simone;Volpe, Yary;Rotini, Federico;Carfagni, Monica;Facchini, Bruno
2023

Abstract

Purpose This paper aims to present the design of a particular non-reactive test rig for combustion swirlers and first stage turbine nozzles. The test rig is required for important experimental activities aimed at the optimization of a specific class of gas turbines. Design/methodology/approach A multi-disciplinary team performed the design process by following a tailored design approach, which has been developed for the specific case. The design outcomes allowed to build a fully functional test rig to be introduced in a test cell and then to perform preliminary experiments about the fluid dynamic behaviour of the turbine elements. Findings The followed design approach allowed to efficiently perform the task, by supporting the information exchange among the different subjects involved in both the conceptual and the embodiment design of the test rig. Additionally, the performed experiments allowed to achieve a final configuration that makes the test rig a valuable test case for combustor-turbine interaction studies. Research limitations/implications The study described in this paper is focused on the design of a specific test rig, used for first validation tests. However, the achieved results (both in terms of design and test) constitutes the underpinning of the in-depth investigations to be performed in the next steps of the experimental campaign. Originality/value To the best of the authors’ knowledge, the present paper is the first one that comprehensively describes the design activity of an experimental test rig for turbine application, also providing indications about the specific methodological procedure used to manage the process.
2023
21
758
777
Goal 9: Industry, Innovation, and Infrastructure
Fiorineschi, Lorenzo; Bacci, Tommaso; Frillici, Francesco Saverio Saverio; Cubeda, Simone; Volpe, Yary; Rotini, Federico; Carfagni, Monica; Facchini, ...espandi
File in questo prodotto:
File Dimensione Formato  
PDF_Proof.PDF

Accesso chiuso

Tipologia: Versione finale referata (Postprint, Accepted manuscript)
Licenza: Tutti i diritti riservati
Dimensione 1.74 MB
Formato Adobe PDF
1.74 MB Adobe PDF   Richiedi una copia

I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1244903
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 1
  • ???jsp.display-item.citation.isi??? 1
social impact