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Innovative technology for inertization of goaf in operating longwall panel – presentation of gained experience

Lasek Marian, Czarnecki Zbigniew, Jakubów Antoni

Mining Machines

2022

vol. 40, iss. 2

81--87

The article presents an innovative technology of fire prevention in goaves, based on injection of nitrogen and carbon dioxide inert gases mixture from treatment of exhaust gases from a methane combusting gas engine. The developed innovative technology and the constructed prototype of the installation producing inert gases are the final result of the research project entitled "Innovative and effective technology of inerting the goaf active or dammed longwall in an underground mining plant, extracting hard coal, using mixtures of inert gases obtained from the purification of exhaust gases from a gas engine and preventing the formation of endogenous fires", co-financed by the National Center for Research and Development (NCBR). The prototype installation was demonstrated in real conditions at the “Borynia” part of "Borynia-Zofiówka" mine, where, at the end of the research project, the prototype and the developed fire prevention technology with the use of gas engine exhaust gases were optimized and validated. Until now, under normal conditions in a hard coal mine, the fumes generated as a result of methane combustion in gas engines were emitted directly to the atmosphere. Innovative inerting technology, processing and reusing the exhaust gases produced by methane-fueled gas engines, in ecological context will contribute to the reduction of pollutant emissions in the mining sector, and, with mixing at the same time the carbon dioxide and nitrogen in the proper ratio in the mixture, it will fully utilize the advantages of each of these gases, as known when used in separate form. As a result, considering the possibility of generating a much higher amount of inert gases per time unit compared to the available technologies, and combining the physicochemical properties of nitrogen and carbon dioxide in one mixture, the innovative technological solution significantly increases the effectiveness of fire prevention, thus reducing the possibility of an endogenous fire.

Zasięg strefy spękań w otoczeniu wyrobiska wykonanego w samodzielnej obudowie kotwowej

Czarnecki Zbigniew, Niedbalski Zbigniew, Nita Łukasz, Śpiechowicz Marcin

Przegląd Górniczy

2021

T. 77, nr 1-3

48--58

W artykule przedstawiono wyniki badań dołowych zasięgu strefy spękań górotworu wokół wyrobiska w samodzielnej obudowie kotwowej wykonanych endoskopem otworowym. Pomiary zrealizowane były w chodniku Bw-1n badawczym w pokładzie 401, który drążony jest przy pomocy kombajnu Bolter Miner. Następnie wykonany został model numeryczny z wykorzystaniem opartego na metodzie elementów skończonych programu Phase2, w celu określenia możliwości prognozowania zasięgu stref spękań.. Na koniec wykonano analizę porównawczą wyników badań dołowych z wynikami z modelu numerycznego.

This article presents the results of underground research on the extent of the rock mass fracture zone around excavation with rock bolts only. The measurements were conducted by borehole endoscope in the gallery Bw-1n in the 401 coal seam, which is being driled by Bolter Miner entry driver. A numerical model was also built using the finite element-based program Phase2 to evaluate the fracture zone extent. Finally, the results of the underground research with the results of the numerical model were compared.