Sustainable Development Practices Using Geoinformatics. Группа авторов

Sustainable Development Practices Using Geoinformatics - Группа авторов


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CMRI Assessment

      Risk assessment is defined as a probability of harmful consequences or expected losses based on interactions between hazards and vulnerable conditions [20, 21, 28]. Therefore, risk assessment in an area considers a combination of hazards and vulnerabilities. Similar to other risk assessments, coal mining-related risk also depends on a combination of various hazard parameters and their interaction with a population. Hence, it is essential to investigate the severity, and spatial extent of these hazards as well as the socio-economic ability of the region to anticipate and cope with the dangers.

Geo-environmental Hazard Zones Area (km2) % Area
Low 90.88 23.86
Moderate 164.85 43.28
High 72.11 18.93
Very High 53.16 13.93
Total 381.00 100.00

      The coal mining risk map indicates that high to very high risk zones are present in the central, eastern, and south-eastern parts of the study area. These areas are at higher risk due to high pollution density, active coal mining, presence of coal-based industries that contribute higher AOT and PWV and lowest vegetation cover (Figure 2.8). Coal mine fire locations are also present in many abandoned and active coal mines such as Saunda, Lapanga, Urimari, and Bhurkunda. The fires can causes serious health and safety hazards, land subsidence that affects the environment and infrastructure (roads, electric poles, bridges, buildings, etc.) of the study area. Therefore, these areas are highly prone to hazard and vulnerability zones and need special attention. The areas that are at the lowest risk are attributed to large forest cover and lowest anthropogenic activity.

Risk Zones Area (km2) % Area
Low 133.16 34.97
Moderate 125.68 33.01
High 78.96 20.68
Very High 43.20 11.35
Total 381.00 100.00
An illustration of a map showing coal mining risk zone index map of the study area.

      1. Coal Directory of India 2012–2013, Coal Statistics. Ministry of Coal Government of India. Online available at: (http://www.coal.nic.in/sites/upload_files/coal/files/coal-upload/coaldir-12-13.pdf); 2014 [accessed 01.05.15].

      2. R. Srikanth, Sustainability of coal mining in India-Challenges and way forward (NIAS Policy Brief No. NIAS/NSE/EEP/U/PB/08/2019), 2019.

      3. J.C. Hower, U.M. Graham, A.S. Wong, J.D. Robertson, B.O. Haeberlin, G.A. Thomas, and W.H. Schram, Influence of flue-gas desulfurization systems on coal combustion by-product quality at Kentucky power stations burning high-sulfur coal, Waste Management, Vol. 17(8), p. 523–533, 1998.

      4. R.K Tiwary, Environmental impact of coal mining on water regime and its management, Water air and Soil Pollution, Vol.132 (1–2), p. 185–199, 2000.

      5. F.G. Bell,


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