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Tehnika
2017, vol. 72, iss. 5, pp. 667-674
Case study on ventilation method development for Bar-Boljare highway tunnels construction in Montenegro
Cvjetić Aleksandar S., Lilić Nikola M., Čokorilo Vojin B., Milisavljević Vladimir M.
University of Belgrade, Faculty of Mining and Geology, Serbia

emailaleksandar.cvjetic@rgf.bg.ac.rs
Project:
Research on possibility of AT (Advanced Technology) rockbolting application in mines for the purpose of work safety increase and production efficiency (MESTD - 33025)

Keywords: tunnelling; ventilation; Bar-Boljare highway
Abstract
Sometimes tunnel construction is a necessity regardless of its purpose due to many reasons, to mention some of them: limited space, safe operation, environmental protection etc. In those cases, one of the main aspects concerning an appropriate design of a tunnel construction is site ventilation. Ventilation is required during the construction of any tunnel regardless of technology used to construct it. Three major construction ventilation schemes are typically applied. Which one will be use are often in dependency of the site requirements. In this paper is presented case study on ventilation method development for the highway tunnels construction and it includes ventilation solutions for tunnels ‘Suka’, ‘Vežešnik’, ‘Mrke’ and ‘Vjeternik’ during construction phase. The tunnels are part of the Bar-Boljare highway which is also a part of the Trans-European Highway (THE) through the Republic of Montenegro.
References

*** (1998) Ventilation in underground construction. Swiss Engineering and Architects Association, SIA 196 - Recommendation - Edition

*** (2015) Ventilation project of tunnels ‘Mrke’, ‘Suka’, ‘Vežešnik’ and ‘Vjeternik’ during construction. Podgorica: Vol-Mont MD d.o.o

*** German standard BGV C22 (Unfallverhütungsvorsc-hrift Bauarbeiten BGV C22. (ehem. VBG 37))

*** (2011) British Standard BS 6164: Code of practice for health and safety in tunnelling in the construction industry

AFTES (2003) Recommandations Relatives à la Ventilation des Ouvrages Souterrains en Cours de Construction. Tunnels et ouvrages souterrains, p. 76-106, N° 176, Mars/Avril; (France)

Caissenationale de l’assurance maladie des travaille-urs salaries (1990) Mise en oeuvre de dispositifs de ventilation mécanique lors des travaux de creusement en souterrains de galeries, de puits, ou degrandes exca-vations. Recommandation R352 adoptée le 27 Juin

Drost, U., Bettelini, M. (2006) Tunnel construction site ventilation and cooling: An integrated flow and heat load solver applied to the Lyon-Turin high-speed railroad tunnel project. in: TMI International Conference: Tunnel protection and security against fire and other hazards, Torino, Italy, 15-16. May, INELMEC SA, Switzerland

Kolymbas, D. (2008) Tunnelling and Tunnel Mechanics - a Rational Approach to Tunnelling. Berlin-Heidelberg: Springer
   

About

article language: English
document type: Original Scientific Paper
DOI: 10.5937/tehnika1705667C
published in SCIndeks: 02/11/2017
Creative Commons License 4.0

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