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Synthesis and application of natural sorbents with silver nanoparticles in reducing the emission of odours

Długosz Olga, Ptak Kornelia, Pulit-Prociak Jolanta, Staroń Anita, Staroń Paweł, Chwastowski Jarosław, Szostak Krzysztof, Banach Marcin

Mineralogia

2020

Vol. 51, iss. 1

47--59

The paper concerns the applicability of silver nanoparticles for reducing the emission of odours. Silver nanoparticles were successfully adsorbed on three different dolomitic limestone samples. In the next stage, wastewater from the meat industry was mixed with sorbents modified with a variable content of silver nanoparticles. After 4 days and 7 days, the concentration of ammonia was examined spectrophotometrically. Also, the degree of reduction of total odour concentration by olfactometric method was carried out. Depending on the concentration of the silver nanoparticles on the sorbents, the concentration of ammonia was 15-42 μg/cm3 for nAg content equal to 0.08%, while for sorbents containing approximately 36% of nAg the concentration of ammonia was 0.09-16 μg/cm3. A leaching test of nanosilver from sorbents confirmed that the particles were bound with the sorbents by strong bonds. The percentage of eluted silver increased from 0.67% to 11%, with increased initial concentrations of nAg on the sorbents from 0.18% to 0.37%.

Experimental determination thermal conductivity of dolomitic limestone

Nemec P., Malcho M.

Journal of New Technologies in Environmental Science

2018

Vol. 2, nr 1

3--7

The origin of geothermal energy is in the hot core of the Earth. Due its inexhaustible potential, it is also included among renewable sources. Renewable sources are, from the point of view of national economies, domestic resources that have the potential to replace and in the future, in certain applications, completely dispose of fossil fuels. These sources already offer the opportunity to significantly diversify energy sources in each country. Their development is also seen as an important tool to protect the national economy from future shocks from the rise in imported fuel prices and the cost of environmental damage [1]. Heat from the Earth's rock is obtained from deep boreholes of 100 m to 300 m. Systems for acquiring natural thermal energy from the ground are referred to as ground (wells) - water, i.e. that the rocks are the source of thermal energy that is pumped from the rocks through a circulating antifreeze mixture into a hermetically sealed collector. The heat pump produces a heat output of up to 65°C through the compressor, which is sufficient for the hot water heating system or for hot water heating [2]. Limestone and dolomite make up four fifths of all sediments on the Earth's surface. The transition between dolomite and limestone is not sharp, and thus is form a dolomitic limestone - a rock made of dolomite and a predominant limestone. Dolomite is a rock of sedimentary origin. It consists predominantly of a mineral of the same name. It is formed by settling of CaMg(CO3) in hypersalinic aqueous medium, but more often it results from dolomitization of settled limestones [3]. In Slovakia and especially in the Žilina region there is a large number of sites on dolomitic limestone, so it is necessary to know the properties of these rocks in what composition they occur in nature. The course of the temperature field in the rock mass can be determined by direct field measurements and analytical calculations. Mostly on-site measurement results provide input data for analytical calculation. On the other hand, the analytical calculation applies to the ideal body, and the information thus obtained provides a sort of temperature field course. By comparison, we can determine whether the temperature field in a rock mass based on the calculations is real or is loaded by errors (in measurements, in ignorance of structural - texture parameters, moisture and other aspects of material and mass) [4].

The development of the glass industry in central Vietnam

Mikoláš M., Drenda J., Pechar T., Tvrdý J., Mikoláš M., Mikušinec J., Abrahámovský J., Néč B.

Gospodarka Surowcami Mineralnymi

2017

T. 33, z. 3

143--162

A modern society is characterized by functional infrastructure and sufficient number and variety of materials in the form of various technical goods. All these civilization achievements are not only the result of human skills, but their material principles are based on industrial minerals. This group of materials includes a wide range of the natural raw materials which are used in many industries. This includes the raw materials for the manufacture of glass, ceramics or fillers. In 2014 was complete three-year international development aid project under the title “The Development of the Glass Industry in Central Vietnam”. The aim of the project was to find suitable sources of raw materials in formulations for glass production based on previously proven Phong Dien deposit of glass sand. Works carried out for the Czech Development Agency the GET Company from Czech Republic, Prague. In addition to the optimisation of the glass batch, detailed technological research was also implemented with the goal of achieving the full utilisation of Vietnamese raw materials for the manufacture of high quality glass. The production programme may be varied – focusing not only on the purest crystal type glass, but also on flat glass and container glass and even coloured glass.

Współczesne społeczeństwo charakteryzuje się funkcjonalną infrastrukturą oraz wystarczającą liczbą i różnorodnością materiałów w postaci różnych technicznych dóbr. Te wszystkie osiągnięcia cywilizacyjne są nie tylko rezultatem ludzkich zdolności, ale również źródeł materialnych opartych na przemysłowych złożach minerałów. Ta grupa minerałów zawiera szeroki zakres naturalnych surowców, które są stosowane w wielu działach przemysłu. W ich skład wchodzą surowce stosowane do produkcji szkła, ceramiki lub wypełniaczy. W 2014 roku ukończono trzyletni międzynarodowy projekt badawczy zatytułowany: „Rozwój przemysłu szklarskiego w centralnej części Wietnamu”. Celem projektu było znalezienie odpowiednich źródeł surowców mineralnych niezbędnych do produkcji szkła na bazie wcześniej sprawdzonych złóż piasku szklanego Phong Dien. Prace wykonano dla Czeskiej Agencji Rozwoju przez firmę GET Company z Pragi. Oprócz przeprowadzonej optymalizacji gatunków szkła, wykonano również szczegółowe badania technologiczne w celu pełnego wykorzystania wietnamskich surowców do produkcji wysokiej jakości szkła. Program produkcji szkła może być wieloraki, skoncentrowany nie tylko na najczystszym szkle typu kryształ, ale również na szkle płaskim (szyby), szkle gospodarczym i nawet szkle kolorowym.