Журналы →  Gornyi Zhurnal →  2016 →  №9 →  Назад

CONTRIBUTION OF THE NORTH-EASTERN FEDERAL UNIVERSITY TO DEVELOPMENT IN THE MINERAL MINING INDUSTRY AND PERSONNEL TRAINING
MINING-CONSTRUCTIONS WORK
Название Calculation of load-bearing capacity of structural units at processing plants of ALROSA
DOI 10.17580/gzh.2016.09.14
Автор Poselsky F. F., Alekseenko A. G., Supletsov V. S.
Информация об авторе

Ammosov North-Eastern Federal University, Yakutsk, Russia:

F. F. Poselsky, Head of a Chair, Associate Professor, Candidate of Engineering Sciences
A. G. Alekseenko, Head of a Sector, Candidate of Engineering Sciences
V. S. Supletsov, Head of Laboratory, lab.nsk.82@mail.ru

Реферат

With a view to estimating spare capacity, stress state of structural units at processing plants of ALROSA Company is analyzed using data of stress obsrvations from 1980 to 2014. The load-bearing capacity estimation takes into account criteria of actual fastening of the structures, actual cross-section dimensions and strength characteristics of materials the structures are made of. It is found that the structural units at processing plants possess sufficient load-bearing capacity and spare capacity to carry load and keep service ability under stable conditions and in case of minor deviation from the design and standards and norms. The main factor to reduce load-bearing capacity of the structures is the corrosive wear that has depleted capacity and serviceability of a few structures. At the same time, long-standing processing plants, which now suffer from the intensive corrosion wear, had higher safety factor in line with the norms and standards effective that time. The load-carrying structures of recent construction have lower spare capacity set by the new design standards. This circumstance should be taken into account when continuing operation of buildings at processing plants. Thus, a more complete knowledge on actual operation of processing plant buildings can be gained from in situ testing and determination of actual displacements and stresses. Estimate of capacity of a structure built under old design standards with regard to actual operating conditions may yield a considerable margin in the load-bearing capacity of the structure. At the same time, the buildings constructed under the modern standards have reduced spare capacity and insignifi cant defects and damage can result in structural overstressing.

Ключевые слова Longevity, strength, operating environment, corrosion wear, spare, load-bearing capacity, loads and impact, stress–strain state, calculation model, processing plant
Библиографический список

1. Poselskiy F. F. Building structure strengthening : tutorial. Yakutsk : Publishing Hiuse of Yakutsk State University, 1995. 196 p.
2. Filippov V. V. Issues of reliability and improvement of building structures : collection of scientific proceedings. Yakutsk : Publishing Hiuse of Yakutsk State University, 1996. 174 p.
3. Reccomedations for the assessment of the bearing capacity of metallic constructions of industrial facilities taking into account the exploitation peculiarities. Yakutsk : Institute of Physical-Technical Problems of Notrth of Yakutsk Scientifi c Center of the Siberian Branch of USSR Academy of Sciences, 1989. 32 p. (in Russian)
4. Sanitary Rules SP 16-13330-2011. Steel constructions. Actualized redaction of Sanitary Rules and Regulations II.23-81*. Moscow : Standartinform, 2011. 177 p. (in Russian)
5. Sanitary Rules SP 56.13330.2011. Industrial tasks. Actualized redaction of Sanitary Rules and Regulations 31-03-2001. Moscow : Standartinform, 2011. 22 p. (in Russian)
6. Available at: http://www.consultant.ru/document/cons_doc_LAW_95720/ (in Russian)
7. State Standard GOST 31937-2011. Buildings and constructions. Rules of inspection and of the technical condition. Moscow : Standartinform, 2014. 92 p. (in Russian)
8. Sanitary Rules SP 20-13330-2011. Loads and impacts. Actualized redaction of Sanitary Rules and Regulations 2.01.07-85*. Moscow : Standartinform, 2011. 96 p. (in Russian)
9. Main building of the concentration plant No. 14 of Aikhal Division of “ALROSA” JSC : conclusion of the industrial safety examination No. 01/13-1-ЭЗС. LLC “Scientifi c and Production Association “Nadezhnost”. V. S. Supletsov, A. G. Alekseenko et al. Yakutsk, 2013. 224 p.
10. Main building (ore preparation site) of the concentration plant No. 12 of Udachny Division of “ALROSA” JSC: conclusion of the industrial safety examination No. 01/13-3.1-ЭЗС. LLC “Scientific and Production Association “Nadezhnost”. V. S. Supletsov, A. G. Alekseenko et al. Yakutsk. 2013. 206 p.
11. TSN 20.301-97. Loads and impacts (Snow loads). Yakutsk, 1998. 18 p. (in Russian)
12. O'Rourke M., Koch P., Redfi eld R. Analysis of roof snow load case studies: Urnform load. CRREL Report 83–1. Washington, D. C., 1983. 32 p.
13. Sllindwood B.. Redfi lid R. Ground snow load for structural design. Journal of Structural Engineering. 1983. Vol. 109(4). pp. 950–964.
14. O'Rourke M., Stiefel U. Roof snow loads for structural design. Journal of Structural Engineering. 1983. Vol. 109(7). pp. 1527–1537.
15. Sack R. L. Snow loads on sloping roofs. Journal of Structural Engineering. 1988. Vol. 114(3). pp. 501–517.
16. O'Rourke M., Galanakis I. Roof snowdrifts due to blizzards. Journal of Structural Engineering. 1990. Vol. 116(3). pp. 641–658.
17. International Building Code (IBC). 2009. 676 p.
18. EN 1991-1-3:2003 Eurocode 1 — Actions on structures. Part 1-3: General actions — Snow loads. 2009. 62 p.
19. National building code of Canada. NBCC. 2010. 1222 p.

Полный текст статьи Calculation of load-bearing capacity of structural units at processing plants of ALROSA
Назад