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Justification of reduction in air requirement in ventilation of coal roadways with running diesel engines

Diesel-driven equipment is operated in all mines. Self-propelled diesel transport is used in coal mines to ease the bull work of personnel, namely, in transportation of people and materials, in roof support installation, or in fueling and maintenance of equipment, which allows speeding of heading operations. When diesel engines are run in coal mines, extra fresh air is required to dilute exhaust after fuel combustion in the engines. In Russia the fresh air supply standard in mines is 5 m3/min per 1 horsepower of internal combustion engine. Modeling of exhaust propagation during operation of diesel-hydraulic locomotives shows that this standard is overestimated and can be reduced down to 3.6 m3/min per 1 horsepower. With bio-additives introduced into diesel fuel, amount of carbon monoxide, carbon dioxide and nitrogen oxides is decreased by more than 20% as compared with the standard hydrotreated fuel, which justifies potentially higher reduction in fresh air feed for exhaust dilution.

Keywords: coal mines, diesel-hydraulic locomotives, ventilation, air flow rate, bio-additives, diesel fuel, exhaust, carbon monoxide, nitrogen oxides.
For citation:

Korshunov G. I., Eremeeva A. M., Seregin A. S. Justification of reduction in air requirement in ventilation of coal roadways with running diesel engines. MIAB. Mining Inf. Anal. Bull. 2022;(3):47-59. [In Russ]. DOI: 10.25018/0236_1493_2022_3_0_47.

Acknowledgements:
Issue number: 3
Year: 2022
Page number: 47-59
ISBN: 0236-1493
UDK: 622.41:622.44
DOI: 10.25018/0236_1493_2022_3_0_47
Article receipt date: 17.12.2021
Date of review receipt: 24.01.2022
Date of the editorial board′s decision on the article′s publishing: 10.02.2022
About authors:

G.I. Korshunov1, Dr. Sci. (Eng.), Professor, e-mail: korshunov_gi@pers.spmi.ru, ORCID ID: 0000-0003-2074-9695,
A.M. Eremeeva1, Cand. Sci. (Eng.), Assistant, e-mail: eremeevaanzhelika @yandex.ru, ORCID ID: 0000-0002-9212-5534,
A.S. Seregin1, Cand. Sci. (Eng.), Assistant Professor, e-mail: seregin_as @pers.spmi.ru ORCID ID: 0000-00022897-8604,
1 Saint-Petersburg Mining University, 199106, Saint-Petersburg, Russia.

 

For contacts:

A.M. Eremeeva, e-mail: eremeevaanzhelika@yandex.ru.

Bibliography:

1. Shakhrai S. G., Kurchin G. S., Sorokin A. G. New technical solutions for ventilation in deep quarries. Journal of Mining Institute. 2019, vol. 240, pp. 654—659. [In Russ]. DOI: 10.31897/ PMI.2019.6.654.

2. Gendler S. G., Sinyavina S. V. Method of determining characteristics for air heating system in railway tunnels in harsh climatic conditions. Journal of Mining Institute. 2017, vol. 224, pp. 215—222. [In Russ]. DOI: 10.18454/PMI.2017.2.215.

3. Cohen H. J., Borak J., Hall T., Sirianni G., Chemerynski S. Exposure of Miners’ to Diesel Exhaust Particulates in Underground Non-Metal Mines. AIHA Journal. 2002, no. 63, рр. 651— 658. DOI: 10.1080/15428110208984753.

4. Davies B. The control of diesel particulates in underground coal mines: PhD Thesis. Victoria University of Technology, 2004.

5. Sultanbekov R., Beloglazov I., Islamov S., Ong M. C. Exploring of the incompatibility of marine residual fuel. A case study using machine learning methods. Energies. 2021, vol. 14, article 8422. DOI: 10.3390/en14248422.

6. RD 05-312-99 Tekhnicheskiye trebovaniya po bezopasnoy ekspluatatsii transportnykh mashin s dizel'nym privodom v ugol'nykh shakhtakh. Bezopasnost' gornotransportnogo oborudovaniya ugol'nykh shakht. Sbornik dokumentov. Seriya 05, vyp. 12 [Technical requirements for the safe operation of vehicles with a diesel drive in coal mines. Safety of mining and transport equipment of coal mines. Collection of documents. Episode 05. Issue 12], Gosgortekhnadzor Rossii, 2004, 108 p. [In Russ].

7. Ilyushin Y., Afanaseva O. Spatial distributed control system of temperature field: Synthesis and modeling. ARPN Journal of Engineering and Applied Sciences. 2021, vol. 16, no. 14, pp. 1491—1506.

8. Litvinova T. E., Oleynik I. L. Dissolution kinetics of rare earth metal phosphates in carbonate solutions of alkali metals. Journal of Mining Institute. 2021, vol. 251, pp. 712—722. [In Russ]. DOI: 10.31897/PMI.2021.5.10.

9. Sultanbekov R., Islamov Sh., Mardashov D., Beloglazov I., Hemmingsen T. Research of the influence of marine residual fuel composition on sedimentation due to incompatibility. Journal of Marine Science and Engineering. 2021, vol. 9, no. 10, article 1067. DOI: 10.3390/jmse9101067.

10. Sultanbekov R. R., Nazarova M. N. Determination of compatibility of petroleum products when mixed in tanks. EAGE Tyumen 2019. European Association of Geoscientists & Engineers. 2019, vol. 2019, рр. 1—5. DOI: 10.3997/2214-4609.201900614.

11. Skopintseva O. V., Balovtsev S. V. Air quality control in coal mines based on gas monitoring statistics. MIAB. Mining Inf. Anal. Bull. 2021, no. 1, pp. 78–89. [In Russ]. DOI: 10.25018/0236-1493-2021-1-0-78-89.

12. Kobylkin S. S., Kharisov A. R. Design features of coal mines ventilation using a roomand-pillar development system. Journal of Mining Institute. 2020, vol. 245, pp. 531—538. [In Russ]. DOI: 10.31897/PMI.2020.5.4.

13. Levin L. Yu., Isaevich A. I., Semin M. A., Gazizullin R. R. Dynamics of air-dust mixture in ventilation of blind drifts operating a team of cutter-loaders. Gornyi Zhurnal. 2015, no. 1, pp. 43—55. [In Russ]. DOI: 10.17580/gzh.2015.01.13

14. Menter F. R. Two-equation eddy-viscosity turbulence models for engineering applications. AIAA Journal. 1994, vol. 32, no. 8, рp. 1598—1605. DOI:10.2514/3.12149.

15. Kaledina N. O., Kobylkin S. S., Kobylkin A. S. The calculation method to ensure safe parameters of ventilation conditions of goaf in coal mines. Eurasian Mining. 2016, no. 1, рp. 41— 44. DOI: 10.17580/em.2016.01.07.

16. Kaledina N. O., Kobylkin S. S. Ventilation of blind roadways in coal mines: problems and solutions. Eurasian Mining. 2015, no. 2, рp. 26—30. DOI: 10.17580/em.2015.02.07.

17. Yi H., Park J., Kim M. S. Characteristics of mine ventilation air flow using both blowing and exhaust ducts at the mining face. Journal of Mechanical Science and Technology. 2020, vol. 34, pp. 1167—1174. DOI: 10.1007/s12206-020-0218-0.

18. Dvigateli vnutrennego sgoraniya porshnevye. Vybrosy vrednykh veshchestv s otrabotavshimi gazami. Normy i metody opredeleniya (s izmeneniyami № 1). GOST 31967-2012 [Internal combustion reciprocating engines. Emissions of harmful substances with the exhaust gases. Limit values and test methods. State Standart 31967-2012], Moscow, Standartinform, 2014, 23 p. [In Russ].

19. Lutz E. A., Reed R. J., Lee V. S. T., Burgess J. L. Comparison of personal diesel and biodiesel exhaust exposures in an underground mine. Journal of Occupational and Environmental Hygiene. 2017, vol. 14, no. 7, pp. 102—109. DOI: 10.1080/15459624.2017.1285488.

20. Park J., Park S., Lee D.-K. CFD modeling of ventilation ducts for improvement of air quality in closed mines. Geosystem Engineering. 2016, vol. 19, no. 4, pp. 177—187. DOI: 10.1080/12269328.2016.1164090.

21. Torano J., Torno S., Menéndez M., Gent M. Auxiliary ventilation in mining roadways driven with roadheaders: Validated CFD modelling of dust behavior. Tunnelling and Underground Space Technology. 2011, no. 26, pp. 201—210. DOI: 10.1016/j.tust.2010.07.005.

22. Meshkov A. A., Korshunov G. I., Kondrasheva N. K., Eremeeva A. M., Seregin A. S. Method of reducing air pollution of the coal mines working areas with diesel locomotives harmful emissions. Occupational Safety in Industry. 2020, no. 1, pp. 68—72. [In Russ]. DOI: 10.24000/0409-2961-2020-1-68-72.

23. Litvinenko V. S., Tsvetkov P. S., Dvoynikov M. V., Buslaev G. V. Barriers to implementation of hydrogen initiatives in the context of global energy sustainable development. Journal of Mining Institute. 2020. T. 244, pp. 428—438. [In Russ]. DOI: 10.31897/PMI.2020.4.5.

24. Litvinenko V. S., Tsvetkov P. S., Molodtsov K. V. The social and market mechanism of sustainable development of public companies in the mineral resource sector. Eurasian mining. 2020, no. 1, pp. 36—41. DOI: 10.17580/em.2020.01.07.

25. Pashkevich M. A. Classification and environmental impact of mine dumps assessment. Restoration and Reclamation of Mining Influenced Soils. Academic Press. 2017, pp. 1—32. DOI: 10.1016/B978-0-12-809588-1.00001-3.

26. Balovtsev S. V., Skopintseva O. V. Assessment of the influence of returned mines on aerological risks at coal mines. MIAB. Mining Inf. Anal. Bull. 2021, no. 2–1, pp. 40—53. [In Russ]. DOI: 10.25018/0236-1493-2021-21-0-40-53.

27. Anisimov A. S. Calculation of combustion in the cylinder of a diesel engine that runs on gas-and-diesel cycle. Izvestia Transsiba. 2015, no. 1(21), pp. 2—6. [In Russ].

28. Grachev A. Yu. Karpov E. F., Pozdnyakov G. A., Sleptsov V. V. About systems of aerogas control at coal mines. Occupational Safety in Industry. 2013, no. 7, pp. 53—58. [In Russ].

29. Katsubin A. V., Kovshov S. V., Ilyashenko I. S., Marinina V. M. Study of organic compounds for reduction of the aerotechnogenic load from the coal mines highways. Occupational Safety in Industry. 2020, no. 1, pp. 63—67. [In Russ]. DOI: 10.24000/0409-2961-2020-1-63-67.

30. Gerasimov I. E., Knyazkov D. A., Dmitriev A. M., Kuybida L. V., Shmakov A. G., Korobeinichev O. P. Experimental and numerical study of the structure of the flame of a premixed mixture of methyldecanoate/oxygen/ argon. Fizika goreniya i vzryva. 2015, vol. 51 — № 3, pp. 3—11. [In Russ]. DOI: 10.15372/FGV20150301.

31. Ahmed S. T., Chaichan M. T. A study of free convection in a solar chimney sample.Engineering and Technology. 2011, vol. 29, no. 14, pp. 2986—2997. URL: https://www.iasj.net/iasj/ download/3800aca708137dfa.

32. Bugarski A. D., Cauda E. G., Janisko S. J. Aerosols emitted in underground mine air by diesel engine fueled with biodiesel. Journal Air & Waste Management Association. 2010, vol. 60. Iss. 2, pp. 237—244. DOI: 10.3155/1047-3289.60.2.237.

33. Bagley S. T., Watts W. F., Johnson J. P., Kittelson D. B., Johnson J. H., Schauer J. J. Impact on low-emission diesel engines on underground mine air quality. NIOSH Grant No. R01/ CCR515831-01. 2002.

34. Kovshov S. V., Buldakova E. G., Safina A. M. Regression analysis of dust formation processes from haul roads on the coal open-pit mines in Eastern Siberia. International Journal of Ecology & Development. 2019, vol. 34. Iss. 2, pp. 29—37.

35. Galkin A. F., Kurta I. V. Choosing optimal parameters of mine air conditioning systems. Proceedings of China-Europe Conference on Geotechnical Engineering. Springer Series in Geomechanics and Geoengineering. Springer, Cham. 2018, article 216849, pp. 1144—1148. DOI: 10.1007/978-3-319-97115-5_56.

36. Gospodarikov A. P., Nguen C. T. Hyperstatic reaction method for calculations of tunnels with horseshoe-shaped cross-section under the impact of earthquakes. Earthquake Engineering and Engineering Vibration. 2020, vol. 19, pp. 179—188. DOI: 10.1007/s11803-020-0555-0.

37. Meshkov А. A., Kazanin O. I., Sidorenko A. A. Improving the efficiency of the technology and organization of the longwall face move during the intensive flat-lying coal seams mining at the Kuzbass mines. Journal of Mining Institute. 2021, vol. 249, pp. 342—350. [In Russ]. DOI: 10.31897/PMI.2021.3.3.

38. Kazanin O. I., Rudakov M. L., Kolvakh K. A. Occupational safety and health in the sector of coal mining. International Journal of Civil Engineering and Technology. 2018, vol. 9, no. 6, pp. 1333—1339.

39. Korshunov G. I., Eremeeva A. M., Drebenstedt C. Justification of the use of a vegetal additive to diesel fuel as a method of protecting underground personnel of coal mines from the impact of harmful emissions of diesel-hydraulic locomotives. Journal of Mining Institute. 2021, vol. 247, pp. 39—47. [In Russ]. DOI: 10.31897/PMI.2021.1.5.

40. Eremeeva A. M. Obosnovaniye sposoba zashchity podzemnogo personala ugol'nykh shakht ot vozdeystviya vrednykh vybrosov dizel'-gidravlicheskikh lokomotivov [Substantiation of a method for protecting underground personnel in coal mines from the effects of harmful emissions from diesel-hydraulic locomotives], Candidate’s thesis, 2021, 125 p.

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