Many years of practicing of combustion by-products (UPS) use in form of hydraulic mixtures in underground mining technologies showed that the advantages resulted from these operations fairly exceed related outlays. Nowadays the largest consumers of UPS are mining and building industries. Intensive mining operations conducted, in case of hard coal beds, mainly with longwall system with caving, leads to severe impacts on the ground surface,mainly in form of deformations, subsidence, and collapsed basins. Additional factor, which influences negatively evolution of these deformations, is activation of voids remaining from old mining operations. Particularly hazardous are non-linear deformations in form of collapsed basins, which are able to develop in suddenly and abruptly way. In case when inception of ground collapse is bound with destruction of a building structure located on endangered area, a building disaster is to be considered. Technology and the way the collapse will be liquidated depend mainly on the place of their origin and geological structure of the rockmass. As a fill material for the collapsed basin loose rock rubble may be used or, in special cases, a hydraulic mixture with bind properties. The paper presents results of binding-mechanical properties of hydraulic mixtures made with use of fluidal ashes from Jaworzno power plant, fly ash with flue gas desulphurization residues from Rybnik power plant, and a binder in a form of Portland cement in amount of 5 and 10%. As it can be seen from obtained results, end of binding process of hydraulic mixtures occurs between 19 and 77 hours. Compressive strength of analyzed hydraulic mixtures ranges from 6,28 to 13,2MPa. Soak resistance, which describes the resistance of material against impacts of water environment amounts from 4,3 to 12,8%. Coefficient of filtration measured with Kamienski permeameter ranged from 9,9E-8 to 9,7E-09 m/s for discussed fine-grained hydraulic mixtures. Obtained results allow recommending of discussed mixtures for liquidation of collapses occurred on the ground surface. It should be mentioned that fly ashes shall be considered as waste of potentially time-dependent differentiated pozzolanic properties. In further part of the paper an example of collapsed basin liquidation, which took place in the Upper Silesia area in 2008 in result of mining operations. During recovery operationsmineral binders Utex-15 and Solitex-G have been used, which are produced on the basis of fly ashes by the company Utex ltd. Selection of mineral binders as a fill material instead of fly ash - water mixture with cement addition presented in this paper, in spite to their similar mechanical properties, has been dictated in this particular case by the requirement to reach assumed minimal values of mechanical parameters.