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Wykorzystanie programów komputerowych do rozwiązywania problemów wentylacyjnych w wietnamskich kopalniach węgla
Konferencja
POL-VIET 2019 : scientific-research cooperation between Poland and Vietnam : 08–10.07.2019, Krakow
Języki publikacji
Abstrakty
Having enjoyed an economic upsurge in recent years, Vietnam is now recording increased demand for electrical energy. Its production, for the most part, relies on the coal mining industry, thus resulting in a strong upward trend in mining volumes. Being geologically complex, Vietnamese mines are characterised by a complicated structure of their headings. The local ventilation systems are also affected by there being very few automatic dams and an by increases in airflows delivered to the mine. For this reason, in order to analyse airflows and maintain the proper control of ventilation systems, computer software is required. The article offers a comparison of computer programs – Kazemaru, VentGraph and VentSim – as employed for use in Vietnamese mines. The assessment covered the manner in which these programs are used and how their output data are presented, as well as their range of applications in the conditions of Vietnamese coal mines.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
119--128
Opis fizyczny
Bibliogr. 34 poz., tab., wykr., zdj.
Twórcy
autor
- AGH University of Science and Technology, Faculty of Mining and Geoengineering, Krakow, Poland
autor
- AGH University of Science and Technology, Faculty of Mining and Geoengineering, Krakow, Poland
autor
- AGH University of Science and Technology, Faculty of Mining and Geoengineering, Krakow, Poland
Bibliografia
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- 2. E. Strzałkowska, P. Strzałkowski, Górnictwo węgla kamiennego w Wietnamie – wybrane informacje, Górnictwo i Geologia 6, 1 (2011)
- 3. www.vinacomin.vn Vinacomin sets to produce 40 million tonnes of coal and earn 128 trillion VND in revenue in 2019. http://www.vinacomin.vn/news-ofvinacomin/ vinacomin-sets-to-produce-40-million-tonnes-of-coal-and-earn-128-trillionvnd-in-revenue-in-2019-201901181601319628.htm (15.04.2019)
- 4. H. Nguyen, Vietnam Mining Industry Webinar, 20 September 2018, Australian Government Austrade www.austrade.gov.au/ArticleDocuments/1418/2018_webinarpresentation_Vietnam_mining_industry.pdf.aspx (15.04.2019)
- 5. M.S. Morar, S.M. Radu, D. Cioclea, I. Gherghe, Use of IT equipment and specialized programs for solving ventilation networks, Quality - Access to Success, Supplement 1, Vol. 18, p121-126. 6p. (2017)
- 6. W. Dziurzyński, J. Krawczyk, Możliwości obliczeniowe wybranych programów symulacyjnych stosowanych w górnictwie światowym, opisujących przepływ powietrza, gazów pożarowych i metanu w sieci wyrobisk kopalni, Przegląd Górniczy 68, 5 (2012)
- 7. N. Katsumata, R. Yahagi, H. Kurosaki, S. Kubota, Feasibility study of ventilation design for underground facilities, 6th East Asia Forum on Radwaste Management Conference, November 27-29, Osaka, Japan (2017)
- 8. W. Dziurzyński, T. Pałka, J. Krawczyk, Ventgraph for Windows User’s Guide, Strata Mechanics Research Institute Polish Academy, Cracow, Poland (2010)
- 9. W. Dziurzyński, T. Pałka, Wyznaczenie dróg ucieczkowych w razie pożaru w kopalni podziemnej – nowe możliwości system VentGraph, Prace Instytutu Mechaniki Górotworu PAN, Vol. 16, 1-2, p.3-16 (2014)
- 10. W. Dziurzyński, J. Kruczkowski, Validation of the mathematical model used in the Ventgraph programme on the example of the introduction of new headings to the ventilation network of mine, Arch. Min. Sci. Vol. 52, No 2, p.155-169 (2007)
- 11. C.J. Pritchard, Validation of the Ventgraph program for use in metal/non-metal mines,in Proceedings of the 13th United States/North American Mine Ventilation Symposium, Sudbury, ON, Canada, 13–16 June 2010, pp. 455-462 (2010)
- 12. W. Dziurzyński, A. Krach, T. Pałka, S. Wasilewski, Walidacja procedur programu VentZroby z wykorzystaniem systemu monitoringu stanu atmosfery kopalni, Prace Instytutu Mechaniki Górotworu PAN, Vol. 11, no. 1-4, p.79-112 (2009)
- 13. W. Dziurzyński, A. Krach, T. Pałka, A reliable method of completing and compensating the results of measurements of flow parameters in a network of headings, Arch. Min. Sci., Vol. 60, No 1, p.3-24 (2015)
- 14. W. Dziurzyński, A. Krach, T. Pałka, Airflow sensitivity assessment based on underground mine ventilation systems modeling, Energies 10, 1451 (2017)
- 15. A.D.S. Gillies, H.W. Wu, Case studies from simulating mine fires in coal mines and their effects on mine ventilation systems, Proceedings, Fifth Australasian Coal Operators Conference, Ed. N. Aziz and B. Kininmonth, Aus. Inst. Min. Metall., Melbourne, pp 111-125 February (2004)
- 16. A.D.S. Gillies, H.W. Wu, A.M. Wala, Australian mine emergency exercises aided by fire simulation, Arch. Min. Sci., Vol. 50, No 1, p.17-47 (2005)
- 17. E. Yaslioglu, E. Simsek, I. Kilic, Estimation of minimum ventilation requirement of dairy cattle barns for different outdoor temperature and its affects on indoor temperature: Bursa case, Pak J Biol Sci. 10(8), p.1264-9 (2007)
- 18. A.D.S. Gillies, H.W. Wu, Challenges in undertaking inertisation of fires in underground mines, in 12th U.S./North American Mine Ventilation Symposium, Reno, Nevada, June 9-12, 2008, pp. 539-546 (2008)
- 19. R. Hansen, Smoke spread calculations for fires in underground mines, research project: Concept for fire and smoke spread prevention in mines, Studies in Sustainable Technology, Mälardalen University (2010)
- 20. H.W. Wu, S. Gillies, Analysis of Blakefield South Mine (BSM) Explosion, Technical Report for Investigation Unit, Mine Safety Performance, Industry & Investment NSW, Australia (2012)
- 21. P. Zapletal, V. Hudecek, V. Trofimov, Effect of natural pressure drop in mine main ventilation, Arch. Min. Sci., Vol. 59, No 2, p. 501-508 (2014)
- 22. Ventsim Visual™ User Guide, Ventsim Software By Chasm Consulting
- 23. Ventsim™ 3D Mine Ventilation Simulation Software, Feature & Pricing Chart, http://www.ventsim.com/wp-content/uploads/2014/09/features_table_USD.pdf (20.04.2019)
- 24. F. Weia, Z. Fangpingb, L. Huiqing, The use of 3D simulation system in mine ventilation management, Procedia Engineering 26 1370-1379 (2011)
- 25. M.O. Bustamante-Rúa, A.J. Daza-Aragón, P. Bustamante-Baena, Simulation software VENTSIM™ the influence of implementation of work abandoned sealings ventilation of an underground coal mine, Boletin de Ciencias de la Tierra 37, pp. 1-2 (2015)
- 26. M. Şuvar, D. Cioclea, I. Gherghe, V. Păsculescu, Advanced software for mine ventilation networks solving, Environmental Engineering and Management Journal Vol. 11, No. 7, 1235-1239 (2012)
- 27. D.J. Brake, Fire Modelling in Underground Mines using Ventsim Visual VentFIRE Software, The Australian Mine Ventilation Conference, Adelaide, 1-3 July (2013)
- 28. E. Develo, M. Pillalamarry, E. Garab, Improving the ventilation system at Rosh Pinah zinc mine, The Journal of The Southern African Institute of Mining and Metallurgy. Vol. 116, 301-305 (2016)
- 29. E. Widzyk-Capehart, B. Watson, Agnew Gold Mine expansion mine ventilation evaluation using VentSim, Proceedings of the 7th International Mine Ventilation Congress: June 17-22, 2001, Cracow, Poland (2001)
- 30. E. Widzyk-Capehart, C. Fawcett, Life of mine ventilation requirements for Bronzewing mine using VentSim, Proceedings of the 7th International Mine Ventilation Congress: June 17-22, 2001, Cracow, Poland (2001)
- 31. J.G. Zhang, C.Y. Suo, Study of Coal Mine Ventilation System Optimization based on Ventsim, MATEC Web of Conferences 44, 02016 (2016)
- 32. S. Maleki, F. Sotoudeh, F. Sereshki, Application of VENTSIM 3D and mathematical programming to optimize underground mine ventilation network: A case study, Journal of Mining & Environment, Vol. 9, Issue 3, Page 741-752 (2018)
- 33. K. Dzwiti, V. Mutambo, Optimization of the Ventilation System Using Ventsim Visual Considering the Full Mine Mechanization Drive at Konkola Copper Mines, First Zambia National Conference On Geology, Mining, Metallurgy and Groundwater Resources: The Future Mining in Zambia Held at Mulungushi International Conference 22nd – 23rd November 2018, Lusaka, Zambia (2018)
- 34. X.D. Zhu, Z.L. Lu, H.L. Wang, Analysis and Application of Energy Saving and Consumption Reduction of Mine Wind Network Based on Ventsim, Journal of Scientific and Engineering Research, 5(12):21-26 (2018)
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-be044581-232c-46c2-a6f2-196635e30bb5