Multiparametric diagnostics of gas turbine engines

被引：0

作者：

Sinay, J. ^{[1
]}

Tompos, A. ^{[1
]}

Puskar, M. ^{[2
]}

Pctkova, V. ^{[3
]}

机构：

[1] TU Košice, Department of Safety and Quality Production

[2] TU Košice, Department of Design, Transportation and Logistics

[3] STU Bratislava, Institute of Thermal Power Engineering

来源：

Transactions of the Royal Institution of Naval Architects Part A: International Journal of Maritime Engineering | 2014年 / 156卷 / PART A2期

关键词：

Condition based maintenance - Gases - Condition monitoring;

D O I：

10.3940/rina.ijme.2014a2.285

中图分类号：

学科分类号：

摘要：

This article addresses the issue of diagnostics and maintenance of Gas Turbine Engines which are located in high Speed Ferries, Cruisers, Frigates, Corvettes, etc. Assurance of reliable operation can be performed only by using correct diagnostic methods and procedures of monitoring the condition of the devices and by selecting the correct strategy of maintenance. The issue of monitoring the technical condition of Gas Turbine Engines is treated through multiparametric methods of technical diagnostics incorporated into predictive maintenance, which is a part of proactive maintenance. There are methods of vibrodiagnostics, thermography, tribology, borescopy and emissions measurement Each of these methods has lots of advantages and disadvantages; therefore it is very important to ensure their correct combination for trouble-free operation of those important facilities. Their suitability at work is discussed in the matrix of diagnostic methods application and the PF chart. The output of the work is a proposal of a suitable model of maintenance control which uses multiparametric diagnostic methods for small and big Gas Turbine Engines and optimizes maintenance costs. © 2014: The Royal institution of Naval Architects.

引用

页码：149 / 156

页数：7

共 12 条

[1]

Pacaiova H., Sinay J., Glatz J., Bezpecnost A Rizika Technickych Systemov. Strojnicka Fakulta Technickej Univerzity, (2009)

[2]

Jianptng Y., Hong-Zhong H., Li-Ping H.E., Shun-Peng Z.H.U., Dun W.W., Risk Evaluation in Failure Mode and Effects Analysis of Aircraft Turbine Rotor Blades Using Dempster-Shafer Evidence Theory under Uncertainty., pp. 2084-2092

[3]

Moubray J., Rcm: Reliability centred maintenance, Butteworth Heinenmann, Oxford, pp. 1-128, (1997)

[4]

Gelft M., Pola A., Roberti R., La Vecchta G.M., Galli E., Failure Analysis of An Electric Arc Furnace Off-Gas System., pp. 42-48

[5]

Tavares S.S.M., Anchieta V., Leao E.R.C., Silva M.R.D.A., Macedo M.C.S., Failure Analysis of PSV Spring in Offshore Gas Production Pipeline., pp. 10-17

[6]

Petkova V., Teoria A Aplikacia Vybranych Metod Technickej Diagnostiky. Technicka Univerzita v Kosiciach, (2010)

[7]

Sinay J., Rizika Technickych Zariadcni., (1997)

[8]

Tompos A., Svtderova K., Vahove kriteria ucinnosti udrzby, Bezpecnost - Kvalita - Spolahlivost: 5. Medzinarodna Vedecka Koriferencia, (2011)

[9]

Tompos A., Nastroje multikriterialneho vyberu metod technickej diagnostiky pre posudenie technickeho stavu strojov a zariadeni, Dokotrandska Dizertacna Praca. Technicka Univerzita v Kosiciach, (2011)

[10]

Lamas M.I., Rodriguez C.G., Aas H.P., Computational fluid dynamics analysis of nox and other pollutants in the man b&w 7s5omc marine engine and effect of egr and water addition, Transactions of the Royal Institution of Naval Architects International Journal of Maritime Engineering, 155, PART A2, pp. 81-88, (2013)

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