Vegetation as an indicator of underground smoldering fire on coal-waste dumps

AbstractCoal-waste dumps superimposed on former rubbish dump frequently undergo selfheating and selfignition of organic matter dispersed in the waste. The special conditions for plant growth generated as a result have been investigated since 2008 on the municipal dump reclaimed with coal wastes in Katowice-Wełnowiec, Poland. The plants observed most frequently where heating has occurred are Sisymbrium loeselii, Artemisia vulgaris, Sonchus arvensis, Chenopodium album, Achillea millefolium, Cirsium arvense, Amaranthus retroflexus, Atriplex nitens and Solanum nigrum. Some new, rare species such as Portulaca oleracea, first noticed in 2011, may be added. Most of encroaching species are annual, alien archeophytes and neophytes. Native species are mainly perennials. The majority of these species show a tendency to form specimens of huge size (gigantism). The abundance of emitted CO2 and nitrogen compounds is the likely cause of this. Additionally, the plants growing there are not attacked by insects. The heating of the ground liquidates the natural seed bank. After cooling, these places are seeded by species providing seeds at that very moment (pioneer species). Heated places on the dumps allow plant growth even in the middle of winter. As the seasonal vegetation cycle is disturbed, plants may be found seeding, blooming and fruiting at the same time.

Download Full-text

A note on design parameters for in-pit coal waste dumps in weak rock

Proceedings of the First Asia Pacific Slope Stability in Mining Conference ◽

10.36487/acg_rep/1604_34_pells ◽

2016 ◽

Author(s):

Philip Pells

Keyword(s):

Design Parameters ◽

Coal Waste ◽

Weak Rock ◽

Waste Dumps

Download Full-text

Technogenic carbonaceous objects of the Chervonohrad mining and industrial district and some technical solutions for their using

Geology and Geochemistry of Combustible Minerals ◽

10.15407/ggcm2019.04.045 ◽

2019 ◽

Vol 4 (181) ◽

pp. 45-65

Author(s):

Dmytro BRYK ◽

Oleg GVOZDEVYCH ◽

Lesya KULCHYTSKA-ZHYHAYLO ◽

Myroslav PODOLSKYY

Keyword(s):

Coal Mining ◽

Coal Ash ◽

Energy Utilization ◽

Coal Waste ◽

Coal Production ◽

Industrial District ◽

Waste Dumps ◽

Wide Range ◽

Coal Wastes ◽

The Impact

Ukraine has significant coal resources. Chervonohrad Mining and Industrial District is the main coal complex in the west of Ukraine. In recent years, the average annual coal production in the mines of Chervonohrad Mining and Industrial District has amounted to 1.5 bn t, coal ash varies over a wide range of 25 to 53 %, average coal ash content of about 40 %. Coal mining has produced millions of tons of coal waste every year. Concentration of technogeneous coal objects (mines, mining infrastructure, coal-mining waste dumps and wastes of coal enrichment) in a relatively small area has caused environmental degradation. Therefore, technological and environmental aspects of carbon-containing technogenic objects are particularly important and actual. Coal-waste dumps in the territory of Chervonohrad Mining and Industrial District are characterized in detail. The dumps cover different areas – from 9–10 to 29–30 ha, the height of the dumps reaches 62 m at the mostly heights of 25–40 m. The total waste deposit in the dumps of existing mines has a volume of more than 20 million m3. The coal wastes from Mezhyrichanskaya mine coal-waste dump was investigated to determine the suitability for thermochemical processing. Technical characteristics of taken coal-waster samples is presented. The technogenic carbonaceous objects and the impact to the environment are evaluated. The developed and patented technical and technological solutions for the technogenic carbonaceous objects using are considered. It is shown that the concept of industrial development of coal wastes dumps is based on two aspects – extraction of valuable mineral components and energy utilization of carbonaceous wastes of coal production. Its patented as Patents of Ukraine technological schemes for terrestrial process in of solid carbonaceous raw material from dumps and sludges with the production of coal tar and synthesis gas CO + H2 are presented, as well as the scheme of a system for utilization of heat from coal dump. Recommendations for the implementation of innovative technologies are based on the results of the laboratory research. The purpose of the resolution is to obtain valuable components and energy from coal wasters while improving the environment.

Download Full-text

FIRE DETECTION BASED ON A SERIES OF THERMAL IMAGES AND POINT MEASUREMENTS: THE CASE STUDY OF COAL-WASTE DUMPS

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences ◽

10.5194/isprs-archives-xlii-1-w2-9-2019 ◽

2019 ◽

Vol XLII-1/W2 ◽

pp. 9-12 ◽

Cited By ~ 2

Author(s):

A. Abramowicz ◽

R. Chybiorz

Keyword(s):

Remote Sensing ◽

Thermal Conditions ◽

Fire Detection ◽

Hard Coal ◽

Coal Waste ◽

Thermal Images ◽

Mining Areas ◽

Waste Dumps ◽

Upper Silesian Coal Basin ◽

Remote Sensing Methods

<p><strong>Abstract.</strong> The development of mining areas is always associated with a huge amount of unused gangue. It is treated as waste that should be disposed of. Most often it is done by creating waste dumps. Unfortunately, in the case of hard coal, such treatments can be dangerous, because the remaining coal can self-heat, what then leads to ignition and fire. These fires are uncontrolled and significantly affect the environment and the health of residents. Areas at risk of fire should be properly secured and its thermal conditions monitored. There are currently many methods available for measuring temperature. The latest and also the most popular are pyrometric and remote sensing methods. For the purposes of analysis, fieldwork on the selected coal-waste dump in the Upper Silesian Coal Basin was made using pyrometric (point measurements) and remote sensing methods (thermal images). A series of photos and measurements were compared over time and space to catch change trends. Differences in the received data were identified. Studies have shown that using only one method helps identify a fire, but does not provide enough information about its structure. Comprehensive monitoring is the best solution.</p>

Download Full-text

Thermal mapping of self-heating zones on coal waste dumps in Upper Silesia (Poland) — A case study

International Journal of Coal Geology ◽

10.1016/j.coal.2014.04.005 ◽

2014 ◽

Vol 128-129 ◽

pp. 47-54 ◽

Cited By ~ 11

Author(s):

Ádám Nádudvari

Keyword(s):

Coal Waste ◽

Upper Silesia ◽

Self Heating ◽

Thermal Mapping ◽

Waste Dumps

Download Full-text

Classification of fires in coal waste dumps based on Landsat, Aster thermal bands and thermal camera in Polish and Ukrainian mining regions

International Journal of Coal Science & Technology ◽

10.1007/s40789-020-00375-4 ◽

2020 ◽

Author(s):

Ádám Nádudvari ◽

Anna Abramowicz ◽

Monika Fabiańska ◽

Magdalena Misz-Kennan ◽

Justyna Ciesielczuk

Keyword(s):

Satellite Images ◽

Coal Waste ◽

Thermal Activity ◽

Thermal Camera ◽

Intensity Index ◽

Self Heating ◽

Waste Dumps ◽

History Of ◽

Burning Coal

Abstract A self-heating intensity index (SHII) based on the highest (pixel max.) and lowest (pixel min.) values taken from satellite thermal maps of burning coal waste dumps are proposed. The index enables the classification of such fires in Ukrainian- and Polish coal waste dumps. Both in Ukraine and in Poland, varying thermal intensities during 1985–2019 are revealed, using the SHII and following thermal intensity threshold values, namely, extreme thermal activity (> 7), advanced (3–7), moderate (3–1.5), initial (1.5–1), no activity (< 1). The SHII shows decreasing thermal activity in the selected Ukrainian coal waste dumps during 2017–2019. It aids in reconstructing the thermal history of the dumps. Analysis of satellite images revealed a large number of burning coal waste dumps in the Donetsk Coal Basin (Ukraine) with high thermal activity. Such burning likely reflects large amounts of organic matter and sulphides in the dumped material subjected to self-heating and self-burning processes, lack of compaction of the coal waste and/or high methane contents. Comparison of SHII values calculated from satellite- and drone thermal-camera images were compared to show that SHII from drone thermal images have much higher values than those from satellite images; the former have better resolution. Thus, SHII from Landsat- and drone images should be used separately in dump heating studies.

Download Full-text