Vol.9, No 2, 2011 pp. 161 - 168
UDC 621.542

INFLUENCE OF PISTON ROD CLAMPING UNIT ON INCREASED ENERGY EFFICIENCY OF COMPRESSED AIR SYSTEMS
Slobodan Dudić1, Dragan Šešlija1, Miodrag Stojiljković2, Vladislav Blagojević2, Ivana Ignjatović1*
1Faculty of Technical Science, Trg D. Obradovića 6, Novi Sad, Serbia
2Faculty of Mechanical Engineering, University of Niš, A. Medvedeva 14, Niš, Serbia
*E-mail: ivanai@uns.ac.rs
Requirements for increased energy efficiency and lower energy consumption, i.e., efficient and rational exploitation of energy resources, are today the global imperative which has been a subject of international treaties and standards. Bearing in mind that the compressed air is one of most widely used energy carriers in industry as well as the subject of aforementioned requirements, this paper is a contribution to investigations on the increase of energy efficiency of compressed air systems by reducing unnecessary consumption. In view of this objective, the paper analyzes the effects of the piston rod clamping unit application and its influence on energy efficiency of compressed air systems.
Key words: Energy Efficiency, Compressed Air, Clamping Unit

UTICAJ PRIMENE MODULA ZA BLOKIRANJE POLOŽAJA KLIPNJAČE CILINDRA NA POVEĆANJE ENERGETSKE EFIKASNOSTI SISTEMA VAZDUHA POD PRITISKOM
Povećanje energetske efikasnosti i potreba da se smanji potrošnja energije u svetu, odnosno da se efikasno i racionalno koriste energetski izvori, danas predstavlja obavezu koja je postala globalno pitanje i predmet međunarodnih sporazuma i standarda. Imajući u vidu da je vazduh pod pritiskom jedan od najrasprostranjenijih prenosnika energije u industriji, i da je pod istom obavezom, ovaj rad predstavlja doprinos istraživanjima mogućnosti povećanja energetske efikasnosti sistema vazduha pod pritiskom smanjenjem neprimerene potrošnje vazduha. U tom cilju, u radu se analiziraju efekti primene modula za blokiranje klipnjače cilindra i njihov uticaj na energetsku efikasnost sistema vazduha pod pritiskom.
Ključne reči: energetska efikasnost, vazduh pod pritiskom, modul za blokiranje položaja klipnjače cilindra