Primena reverznog inženjeringa pri projektovanju radnog kola Peltonove turbine / Using of Reverse Engineering for Design of Peltone Turbine Runner

Energija, ekonomija, ekologija, 3, XXIV, 2022, (str. 87-91)

АУТОР(И): Radomir Radiša, Aleksandar Stepanović, Srećko Manasijević, Vesna Mandić, Ljubomir Nešovanović

Е-АДРЕСА: Radomir.Radisa@li.rs

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DOI: 10.46793/EEE22-3.87R

САЖЕТАК:

Rad opisuje inovativno rešenje pri revitalizaciji hidrauličnih turbina upotrebom tehnika reverznog inženjeringa i virtuelne proizvodnje. Upotreba modernih digitalnih alata pri razvoju, projektovanju i proizvodnji pokazala je značajne prednosti kod unapređenja postojećih hidrauličnih turbina. Modelska ispitivanja hidrauličnih turbina nisu neophodna, jer se kao polazna osnova koristi postojeća geometrija lopatica turbinskog kola. Digitalni alati omogućuju da se na lak način osvoji geometrija, unaprede hidraulične osobine turbine i ostvari bolji stepen korisnosti, uz minimalne troškove. Cilј je da se prikaže optimizovani oblik i unapređenje radnih karakteristika Peltonove turbine.

КЉУЧНЕ РЕЧИ:

Peltonova turbina, Reverzni inženjering, Konceptualno modeliranje, Metodologije, Digitalni alati

ЛИТЕРАТУРА:

  • Raja, V., Fernandes, K., Reverse Engineering – An Industrial Perspective, Springer-Verlag, London, 2008.
  • Vesely, J., Varner, M., A Case Study of upgrading of 62.5MW Pelton Turbine, CKD Blansko internal report. 2006. 
  • Gao, J., Chen, X., ZHeng, D., Yilmaz, O., Gindi, N. Adaptive restoration of complex geometry parts through reverse engineering application, Advances in Engineering Software, Vol. 37, No. 9, pp. 592-600, 2006. https://doi.org/10.1016/j.advengsoft.2006.01.007
  • Bagci, E. Reverse engineering application for recovery of broken or worn parts and re-manufacturing: Three case studies, Advances in Engineering Software, Vol. 40, No. 6, pp. 407-418, 2009. https://doi.org/10.1016/j.advengsoft.2008.07.003
  • Chen, L.C., Lin, G.C.I. Reverse engineering in the design of turbine blades – a case study in applying the MAMPD, Robotics and Computer Integrated Manufacturing, Vol.16, No. 2, pp. 161-167, 2000. http://doi.org/10.1016/s0736-5845(99)00044-7
  • Radiša, R., Gulišija, Z. Virtual manufacturing of casting using CAE techniques, metals and alloys casting simulation – savings in Serbian foundries and tool-rooms, in: Kuzmanovic, S., (Ed.), Machine design-2009, pp. 271-276, Faculty of Technical Sciences, Universisty of Novi Sad,
  • Radiša, R., Marković, S., Pristavec, J., Kvrgić, V., Manasijević, S. Use of CAE techniques in virtual design of metalcasting technology-saving in Serbian foundries, in Proc. 48th Internacional Foundry Conference Portorož, Slovenija, pp. 1-8, Septembar, 2008.
  • Manasijević, S., Radiša, R., Marković, S., Raić, K., Aćimović-Pavlović, Implementation of the infrared thermography for thermo- mechanicalanalysis of the AlSi cast piston, Praktical Metallography, Vol. 46 No. 11, pp. 565-579, 2009. https://doi.org/10.3139/147.110015
  • Najdenov, I., Radiša, R., Raić, K. Microeconomics of the materials and energents consumption in a simulated copper casting process, La Metalurgia Italiana, Vol. 104, No. 5, pp. 51-56, 2012.