Enhancing Mine Safety An Assessment of Particulate Dust and Noise at Kristal Vountein Quarry, Nigeria
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摘要
Enhanced productivity in mining operations has led to rising mechanisation of the production process, which consequently increases the quantity of dust and noise generated. Dust-related health risk to mine workers is a function of size, concentration and total time to which they were exposed to it. Hearing challenges that are often stimulated by noise depend on the sound’s rate of recurrence levels of pressure and workers’ exposure. Contact with sound pressures and dust concentrations beyond the threshold limits prescribed range by statutory environmental protection bodies may have a damaging consequence on the health of mine workers. This study therefore assessed quarry dust concentration and noise level in Kristal Vountein Quarry vis-à-vis prescribed standards and proposed appropriate control measures to minimise this menace. The noise levels are generally below the danger limit of 90 dB, with the maximum noise level of 85.8+2.6 dB obtained from the crushing point. The findings revealed that the air quality index (AQI) near the processing crusher varied with distance. At 50 m, PM10 and PM2.5 levels were 197.4+11.3 and 215.1+11.3, indicating unhealthy and very unhealthy exposures, respectively. At 100 m, the AQI were 164.4+10.1 and 189.3+9.5, signalling unhealthy conditions. Further distances showed decreasing AQI, with 150 m indicating unhealthy for sensitive groups, 200 m is moderate for PM10, and 250 m is moderate for PM10 and unhealthy for sensitive groups for PM2.5. Therefore, quarry workers, especially in the crushing area, should always put on their protective equipment to protect them from the hazardous environment.
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Adepitan R. O., Owolabi A. O. and Komolafe K. (2018) Prediction of Structural Response to Blast-induced Vibration in Kopek Construction Quarry, Ikere – Ekiti, Ekiti State, Nigeria. International Journal of Environmental Studies, 75(6): 990-999.
Adesida, P.A. and Afu, D. J. (2018) Measurement and Evaluation of Operational Noise Level from Quarrying Operations at Ikpeshi Edo State, Nigeria. American Journal of Environmental Engineering and Science, 5(3): 33-37.
Attenborough, K. (2014) Sound propagation in the atmosphere. Springer handbook of acoustics, pp. 117-155.
Berkhout, B. W., Budria, A., Thieltges, D. W. and Slabbekoorn, H. (2023) Anthropogenic noise pollution and wildlife diseases. Trends in parasitology, 39(3): 181–190.
Deiters, K. K., Stephenson, M. R. and Flamme, G. A. (2024) Noise and Hearing Loss. In Health and Hearing pp. 198-258.
Eyre, J. M. and Agba, A. V. (2007) Nigeria-An Economic Analysis of Natural Resources Sustainability for the Mining Sector Component. World Bank Publications - Reports 7941. Available online at: https://ideas.repec.org/p/wbk/wboper/7941.html
Finn, J. (2023) Process ventilation solutions for mitigation of combustible and non-combustible dust hazards at mining operations. In Underground Ventilation CRC Press. pp. 322-329.
Garg, N. (2022) Environmental Noise Control. Cham, Switzerland: Springer International Publishing.
Kolala, C. and Dokowe, A. (2021) Economic potential of industrial minerals in Zambia - A review. Resources Policy, 72: 101997. DOI: 10.1016/j.resourpol.2021.101997
Lameed, G. A. and Ayodele, A. E. (2010) Effect of quarrying activity on biodiversity: Case study of Ogbere site, Ogun State Nigeria. African Journal of Environmental Science and Technology, 4(11): 740-750.
Lee, Y., Lee, S., & Lee, W. (2023) Occupational and Environmental Noise Exposure and Extra‐Auditory Effects on Humans: A Systematic Literature Review. GeoHealth, 7(6), e2023GH000805.
Lin, C. C., Chen, S. J., Huang, K. L., Hwang, W. I., Chang-Chien, G. P. and Lin, W. Y. (2005) Characteristics of metals in nano/ultrafine/fine/coarse particles collected beside a heavily trafficked road. Environmental Science & Technology, 39(21): 8113-8122.
Liu, T. and Liu, S. (2020) The impacts of coal dust on miners’ health: A review. Environmental Research, 190: 109849.
Onifade, M., Adebisi, J. A., Shivute, A. P. and Genc, B. (2023) Challenges and applications of digital technology in the mineral industry. Resources Policy, 85: 103978.
Owolabi, A. O. (2022) Assessment of Noise, Gaseous and Participate Emissions in Warri, Nigeria. Journal of Human Environment, & Health Promotion, 8(3): 130-136.
Paluchamy, B., Mishra, D. P. and Panigrahi, D. C. (2021) Airborne respirable dust in fully mechanised underground metalliferous mines–Generation, health impacts and control measures for cleaner production. Journal of Cleaner Production, 296: 126524.
Pandey, S., Kumar, G., Kumari, N. and Pandey, R. (2023) Assessment of causes and impacts of sand mining on the river ecosystem. Hydrogeochemistry of Aquatic Ecosystems, pp.357-379.
Peng, X., Shi, G. L., Zheng, J., Liu, J. Y., Shi, X. R., Xu, J. and Feng, Y. C. (2016) Influence of quarry mining dust on PM2. 5 in a city adjacent to a limestone quarry: seasonal characteristics and source contributions. Science of the Total Environment, 550: 940-949.
Pham, T. T. K., Le, S. H., Nguyen, T., Balasubramanian, R. and Tran, P. T. M. (2024) Characteristics of airborne particles in stone quarrying areas: Human exposure assessment and mitigation. Environmental Research, 245: 118087.
Pramendra, D. and Vartika, S. (2011) Environmental noise pollution monitoring and impacts on human health in Dehradun City, Uttarakhand, India. Civil and Environmental Research, 1(1): 32-40.
[Quinta-Ferreira, M., Fernandes, I., & Chaminé, H. I. (2023) Rock Quarries in Critical Situation in Portugal: An Overview. In Advances in Geoengineering, Geotechnologies, and Geoenvironment for Earth Systems and Sustainable Georesources Management: Proceedings of the 1st Conference on Georesources, Geomaterials, Geotechnologies and Geoenvironment (4GEO): 81-84. Cham: Springer International Publishing.
Rajanayagam, B., Sundaramahalingan, M. and Anad, N. (2023) The cumulative effect of quarry dust on the respiratory health of some quarry workers. Universal Journal of Public Health, 11: 305-313.
Rav, A. P., Sivasankar, S., Razali, N. K., Karmegam, K., Velu, P., Kulanthayan, S. and Naeini, H. S. (2020) A review of occupational safety and health problems among quarry plant workers. Malaysian Journal of Medical Health and Sciences, 16: 194-200.
Rim-Rukeh, A. (2015) An assessment of indoor air quality in selected households in squatter settlements Warri, Nigeria. Advancements in Life Sciences 5(1): 1–11.
Sarkar, F. (2023) Assessment of Environmental Impacts of Different Mine Unit Operations on Mine Workers and the Workplaces: A Field-Based Investigation. Journal of The Institution of Engineers (India): Series D, 104(2): 465-478.
Sen, S., Mitra, R., Mukherjee, S., K Das, P. and Moitra, S. (2016) Silicosis in current scenario: a review of the literature. Current Respiratory Medicine Reviews, 12(1): 56-64.
Senzaki, M., Ando, H. and Kadoya, T. (2024) Noise pollution alters the diet composition of invertebrate consumers both in and beyond a noise‐exposed grassland ecosystem. Ecology Letters, 27(1): 14323.
Taiwo, B. O., Famobuwa, O. V., Mata, M. M., Sazid, M., Fissha, Y., Jebutu, V. A., ... & Abubakar, O. (2024) Granite Downstream Production Dependent Size and Profitability Assessment: an application of Mathematical-based Artificial Intelligence Model and WipFrag Software. Journal of Mining and Environment, 15(2): 497-515.
Taiwo, B. O. and Omotehinse, A. O. (2022) The economic potential of some metacarbonate rocks in Akoko-Edo, Edo state Nigeria. Applied Earth Science 131(3): 167-178.
United States Environmental Protection Agency, USEPA (2013) Revised Air Quality Standards for Particle Pollution and Updates to The Air Quality Index (AQI). North Carolina: US EPA Office of Air Quality Planning and Standards. Available online at: https://www.epa.gov/sites/default/files/2016-04/documents/2012_aqi_factsheet.pdf
World Health Organization, WHO (2016) ambient air pollution: a global assessment of exposure and burden of disease.
World Health Organization, WHO (2022) Environmental noise. In: Compendium of WHO and other UN guidance on health and environment, Geneva (WHO/HEP/ECH/EHD/22.01). Licence: CC BY-NC-SA 3.0 IGO.