Auxilliary Ventilation Systems Improvement For Optimal Safety Conditions Provision In Underground Environments

[1] Romanian Parliament, 2006 Law no. 319 Regarding Occupational Safety and Health (in Romanian), Official Journal of Romania, Part I, No. 646/26.07.2006, Bucharest, Romania. Search in Google Scholar

[2] Drăgoescu R., Cămărășescu A., 2024 Optimization of Systems of Industrial Ventilation – Case Study. MATEC Web of Conferences, 389. 10.1051/matecconf/202438900006. Search in Google Scholar

[3] Moraru R.I., Băbuţ C.M., Băbuţ G.B., 2011 Aeraj, sănătate şi securitate în muncă, Focus, Petroşani, ISBN 978-973-677-253-5, 348 p. Search in Google Scholar

[4] Romanian Government, 2006 Government Decision no. 1425 for Approval of Methodological Norms for Applying Occupational Safety and Health Law no. 319/2006 (in Romanian), Official Journal of Romania, Part I, No. 882/30.10.2006, Bucharest, Romania. Search in Google Scholar

[5] Romanian Government, 2010 Government Decision No. 955/2010 for the Modification and Completion of the Methodological Norms for the Application of the Provisions of the Law on Safety and Health at Work 319/2006, approved by Government Decision No. 1425/2006 (in Romanian), Official Journal of Romania, Part I, No. 661/27.09.2010. Search in Google Scholar

[6] Romanian Government, 2011 Government Decision No. 1242/2011 for Changing the Methodology for the Application of the Law of Safety and Health at Work 319/2006, approved by Government Decision No. 1.425/2006 (in Romanian), Official Journal of Romania, Part I, No. 925/27.12.2011. Search in Google Scholar

[7] Chitoroagă O., 2015 Noxe profesionale, Colegiul Politehnic din Chișinău. Search in Google Scholar

[8] Pineau J.P., 2014 Analyse des risques d’installations industrielles, HAL Id:INERIS -00971953, INERIS, Paris. Search in Google Scholar

[9] Biegert B., Railio J., 2001 Industrial Air Technology – Description, Industrial Ventilation Design Guidebook, Academic Press, San Diego, California, USA. Search in Google Scholar

[10] Echeverri D.R., Cano S.H.R., Builes J.A.J., 2012 Detección y control de atmósferas explosivas en minas subterráneas de carbón usando programación estructurada, Revista Educacion en Ingenieria, No. 14, Vol. 7, ISSN 1900 – 8260. Search in Google Scholar

[11] Li Y., Nielsen P.V., 2011 Commemorating 20 Years of Indoor Air CFD and Ventilation Research. Indoor Air, 21: 442–453. Search in Google Scholar

[12] de Sousa E., 2002 Mine Ventilation, A.A. Balkema Publishers, Lisse, Netherlands. Search in Google Scholar

[13] Moraru R.I., Băbuţ G.B., Cioca L.I., Ragazzi M., 2017 Spontaneous Combustion Risk Analysis in Subsurface Environments: Carbon Monoxide Data Processing Tool, Environmental Engineering and Management Journal, Volume 16, Issue 6, pp. 1317-1322. Search in Google Scholar

[14] Cristea A., 1971 Ventilația și condiționarea aerului, Editura Tehnică, București. Search in Google Scholar

[15] Hayati A., Mattsson M., Sandberg M., 2019 A Wind Tunnel Study of Wind-Driven Airing Through Open Doors, International Journal of Ventilation, 18:2, 113-135, DOI: 10.1080/14733315.2018.1435027. Search in Google Scholar

[16] ACGIH, 1995 Industrial Ventilation - A Manual of Recommended Practice. 22^nd edition, ACGIH. Search in Google Scholar

[17] Litomisky A., 2006 New Saving Opportunity: On-demand Industrial Ventilation, Energy Engineering, 103:3, 25-40, DOI: 10.1080/01998590609509465. Search in Google Scholar

[18] Băltăreţu R., Teodorescu C., 1971 Aeraj şi protecţia muncii în mină, Editura Didactică şi Pedagogică, Bucureşti . Search in Google Scholar

[19] Cristea A., 1968 Ventilația și condiționarea aerului – Vol. I, Editura Tehnică, București. Search in Google Scholar

[20] Băltărețu F., Matei I., 1987 Ghid practic pentru proiectarea și verificarea instalațiilor de aeraj parțial, Ministerul Minelor, Petrolului și Geologiei. Search in Google Scholar

[21] Cioclea D., Lupu C., Gherghe I., 2013 Ghid pentru dimensionarea instalațiilor de ventilație industrială, Editura INSEMEX. Search in Google Scholar

[22] Dentinger L., Freysz O., Genet C., 2005 Ventilation Générale des Locaux de Travail, Master Prévention des Risques et Nuisances Technologiques, Projet UE, 05 - Facteurs d’Ambiance, Marseille, le 14/06/2005. Search in Google Scholar

[23] Maître M., 2015 Principes generaux de ventilation – Guide practique de ventilation, ED 695, INRS. Search in Google Scholar

[24] McPherson M.J., 1993 Subsurface Ventilation and Environmental Engineering, Chapman & Hall, London. Search in Google Scholar

[25] Drăgoescu R., Cioclea D., Chiuzan E., Matei A., Morar M.S., 2019 Development of New Concepts, Methods, Processes and Technologies Concerning the Security of Industrial Ventilation Systems, International Multidisciplinary Scientific GeoConference: SGEM; Sofia, Vol. 19, Iss.1.3, DOI:10.5593/sgem2019/1.3/S03.031. Search in Google Scholar

[26] Moraru R.I., Băbuţ G.B., Cioca L.I., 2013 Study of Methane Flow in Caved Goafs Adjacent to Longwall Faces in Valea Jiului Coal Basin, Proceedings of the 13^th International Multidisciplinary Scientific Geoconference - SGEM 2013, Volume I, pp. 731-738, Albena, Bulgaria, 16-22.06. Search in Google Scholar

[27] Şuvar M., Cioclea D., Gherghe I., Păsculescu V., 2012 Advanced Software for Mine Ventilation Networks Solving, Environmental Engineering and Management Journal July, vol. 11, No.7, 1229-1234. Search in Google Scholar

[28] Zhang X., Taipale A., Li X., Cao G., Gao J., Ye W., 2017 Celebrating 30 Years of Conference Series on Industrial Ventilation-Health, Comfort and Efficiency, International Journal of Ventilation, 16:3, 161-162, DOI: 10.1080/14733315.2017.1299512. Search in Google Scholar

[29] Teodorescu C., Gontean Z. Neag I., 1980 Aeraj Minier, Editura Tehnică, București. Search in Google Scholar

[30] Larsson U., Moshfegh B., 2017 Comparison of Ventilation Performance of Three Different Air Supply Devices: A Measurement Study, International Journal of Ventilation, 16:3, 244-254, DOI: 10.1080/14733315.2017.1299519. Search in Google Scholar

[31] Goodfellod H., Tahti E., 2001 Industrial Ventilation, Desing Guidebook, Academic Press. Search in Google Scholar

[32] Zhao B., Li X., Li D., Yang J., 2003 Revised Air-Exchange Efficiency Considering Occupant Distribution in Ventilated Room. Journal of the Air & Waste Management Association, 53: 759–763. Search in Google Scholar

[33] Sotnikov A.G., Borovitskiy A.A., 2012 Theoretical and Experimental Validation of the Air Changes in Industrial Ventilation Optimization Method. Magazine of Civil Engineering, 28(2), pp. 32-38. (Russian). DOI: 10.5862/MCE.28.5. Search in Google Scholar

[34] Steven E.G., Derrick W.B., 2001 An Evaluation of Industrial Ventilation Troubleshooting Methods in Experimental Systems, AIHAJ - American Industrial Hygiene Association, 62:6, 669-679, DOI: 10.1080/15298660108984673. Search in Google Scholar

[35] Gherghe I., Lupu C., Cioclea D., Boantă C., Morar M., Chiuzan E., 2010 Verificarea in situ a parametrilor R₀ şi K₀ care caracterizează instalaţia de aeraj parţial din cadrul aducţiunii secundare BISTRA – POIANA MĂRULUI, Revista Minelor, nr. 11/2010, ISSN 1220 – 2053. Search in Google Scholar

[36] Gherghe I., Lupu C., Cioclea D., Boantă C., Morar M., Rădoi F., 2013 In Situ Inspection of the Aerodynamic Parameters Related to the Ventilation Facility Used on the Main Front Castle Upstream Adduction Gallery from within A.H.E. Siriu-Surduc, Annals of the University of Petrosani. Mining Engineering, nr. 13, ISSN 1454-9174. Search in Google Scholar

[37] Moraru R.I., Băbuţ G.B., 2014 Research on Methane Emission Mechanism and Pattern in a Longwall Coal Face at Livezeni Colliery, Proceedings of the 14^th International Multidisciplinary Scientific Geoconference - SGEM 2014, Volume III, pp. 497-504, Albena, Bulgaria, 17-26.06. Search in Google Scholar

[38] Șuvar M., Arad V., Lupu C., Cioclea D., Ghicioi E., Vlasin N., 2013 Prospective Virtual Simulation of Ventilation Networks, International Multidisciplinary Scientific Geo- Conference SGEM, Bulgaria, Albena, 16^th-22^nd June. Search in Google Scholar

[39] Ojima J., 2002 Worker Exposure Due to Reverse Flow in Push–Pull Ventilation and Development of a Reverse Flow Preventing System. Journal of Occupant Health, 44: 391–397. Search in Google Scholar

[40] Wang Y., Cao Y., Liu B., 2016 An Evaluation Index for the Control Effect of the Local Ventilation Systems on Indoor Air Quality in Industrial Buildings. Build. Simul. 9, 669–676. Search in Google Scholar

[41] Xing H., Hatton A., Awbi H.B., 2001 A Study of the Air Quality in the Breathing Zone in a Room with Displacement Ventilation. Building and Environment, 36: 809–820. Search in Google Scholar