Regeneration of a fibrous sorbent based on a centrifugal process for environmental geology of oil and groundwater degradation

Data were obtained in the experimental study of the process of regeneration of the fibrous sorbent centrifugally. This data characterised the dependence of the sorption rate of fibre loss in the regeneration of fibrous sorbent quality. We found that the increase of sorbent samples regeneration cycles based on polyethyleneterephthalate (PET) fibre of 1 to 50 leads to sorption reduction ratio of 20… 60 % and a weight loss of sorbent is 25-47 %. If the shelf life is increased up to three years, the sorbent does not reduce the rate of sorption and leads to increased sorbent losses due to its mechanical destruction during regeneration in a custom installation centrifugal experimental stand. It was established experimentally that the rate of oil sorption and oil, defined as the ratio of the mass of oil sorbed to the weight of the sorbent used, depends on the mean diameter of the fibres, the sorbent structure and viscosity petroleum products and varies between 5-20. It is also believed that all of the capillaries are filled uniformly and completely with a liquid. Another result of this research is the increase in the process productivity by increasing the average diameter of fibres, reducing the transverse dimension of the fibrous sorbent and increasing the radius and angular speed of the centrifuge perforated drum. A new experimental stand for centrifugal plant separating oil products from fibrous sorbent material has been proposed, which could be used to fight the oil pollution. This is the method used in environmental geology in the degradation of oil. Such a method can be extended to lower the groundwater or geological drilling. © 2016, Technical University of Kosice. All rights reserved

Development and Testing of a Block Hydrocyclone

The study aimed to theoretically substantiate the efficiency of liquid purification and obtain corroborating experimental data for a hydrocyclone, consisting of several blocks. Mathematical models of the process of hydrodynamic fluid filtration were developed with the use of screw swirlers. The obtained mathematical models characterize all the main processes of fluid movement in various zones of the functioning of the hydrocyclone. Formulas for calculating the structures of hydrocyclone blocks are included. A block for swirling the flow of the liquid to be cleaned has been made in the form of a three-way screw. For the first time, wear-resistant and high-strength plastic ZEDEX ZX-324 has been used as a material. An experimental study was conducted and the change in the Reynolds number and the coefficient of fluid consumption was shown, using different constructions of the three-way screw. The research results confirmed the correctness and sufficiency of mathematical models for the development and production of block hydrocyclones

Analysis of Methane Concentration Distribution at U-Ventilated Longwall Outlet – Case Study

The methane hazard concerns a growing number of longwalls in the Polish coal mining industry each year. Mitigating this hazard, both of work safety and economic reasons requires the application of preventive measures adequate to its level. Commonly threat level is estimated based on registered methane concentrations, which fluctuate and highly depends on the place of measurement. The article presents studies on the average and maximum methane concentrations at the longwall outlet, including analyses of the interdependence of methane concentration in methanometry sensors installation locations