Objective method for analysis of mineral resources supply on the example of Russia

A forecast of nonfuel mineral production in Russia is considered, based on the integration of the expected life of specific deposits currently exploited and developed. It is shown that mineral safety is fully ensured for copper, nickel, lead, tungsten and tin, whose reserves are sufficient for their extraction, at least at the current level, for 40–50 years and there are real prospects for its significant growth. The sufficiency of other minerals is much lower: for molybdenum and chromium, it is limited to about 30 years, and the extraction of zinc and uranium in Russia may significantly decrease in 20 years. The situation is more difficult with the most liquid solid minerals, like gold and diamonds. The commissioning of mining enterprises at the developed gold deposits can ensure a rapid growth in the production of the precious metal in the coming years. However, at the beginning of the next decade, the resource base depletion of the Olimpiada field and a number of other exploited deposits is predicted. The projects currently implemented for the development of new fields do not compensate for the lost capacity. This may account for a long-term (until the beginning of the 2050s) decline in the Russian gold production, which may be halved against the current level by the end of this period. Such a scenario can only be avoided with the intensification of geological exploration in the coming years. The earlier decrease in the number of diamonds mined in Russia, associated with the depletion of reserves of exploited pipes, is predicted (since 2025). Unless new deposits are discovered and developed, the domestic production of precious stones will steadily decline and, in the 2040s, may be reduced fourfold.

Simulation of Slag–Matte/Metal Equilibria for Complex and Low-Grade Raw Materials

The depleting and increasingly complex mineral resources bring challenges into the area of metal production, bringing new boundary conditions to the smelting and refining processes. Thermodynamics of phases and equilibria are the key to the analysis of pyrometallurgical processes, enabling descriptions of their limiting boundary conditions. The raw material basis of non-ferrous metals needs an effective control of iron oxide fluxing due to the challenging fact that the targeted metal values of, e.g., copper, nickel, lead, and tin will exist as minority components in the smelter feeds compared to iron sulphides, gangue, and many harmful elements. This means more complex slag compositions and the amount of produced slag being several times that of the metal production. This feature severely impacts the heat balance of the smelting vessels where autogenous operation without external fuels becomes more and more difficult to maintain.

Chemical and microbial evaluation of water samples obtained from itinerant water vendors in Idi – Araba, Lagos State, Nigeria

This study was carried out to investigate the potability of vendor waters mostly used by the urban dwellers in Idi-Araba, Lagos State, Nigeria. Sixteen water samples were analyzed, eleven from water vendors and four from source (Pumped Wells). One water sample from Nigerian bottling company was used as a control standard. Chemical analysis of the various water samples showed that they contained little and insignificant amount of toxic metals such as cadmium, nickel, lead and silver. Microbiological studies showed that vendor water was more contaminated than the source water and the contamination involved indicator and pathogenic organisms. All the organisms found in source water and more were found in vendor water. Susceptibility studies showed that of all the antibiotics used, the quinolones (Ofloxacin and Ciprofloxacin) and also aminoglycoside (Gentamycin) were the most effective antibiotics against the isolated microorganisms while Cloxacillin was the least active. The results of this investigation therefore suggests that the use of vendor and source waters in Idi-Araba appear unsafe for human consumption and domestic use. There is therefore the need for government and relevant authorities/organizations to provide potable water, stage awareness campaign and mass education on hygienic principles amongst the inhabitants of Surulere and the water vendors in particular.

ГІСТОЛОГІЧНА ХАРАКТЕРИСТИКА ЗЯБЕР ТА НИРОК КАРАСЯ СРІБЛЯСТОГО З ЗАПОРІЗЬКОГО (ДНІПРОВСЬКОГО) ВОДОСХОВИЩА

In this article the histological structure of gills and kidneys of the Prussian carp is considered and researched. The research was conducted in the waters of the Zaporizhian (Dnipro) reservoir, namely in the Samara Bay and the lower part of the reservoir (near the village of Viiskove) during 2017–2019. Previous studies have revealed the excess of maximum permissible concentrations of heavy metals in the water of the Samara Bay compared to the lower part of the Zaporozhian reservoir. High levels of nickel and cadmium were observed in the Samara Bay. Statistically significant differences were found between the content of copper, zinc, nickel, lead and cadmium in the two areas of the reservoir (p

ANALYSIS OF PRODUCE WATER FROM EBEDEI FLOW PLANT STATION, DELTA STATE

Produce water from Ebedei flow station (Delta State) at three points was analysed. Discharged point (A), midstream (B) and downstream (C) were a mile apart. The metal concentration of iron, zinc, cadmium, chromium, nickel, lead and manganese were carried out using standard methods. Lead levels at discharged point and down stream were higher than World Health Organization (WHO) standard limits. The polynuclear Aromatic hydrocarbon were determined using high performance liquid chromatography (HPLC). The total PAHs of sample (A) was 3.63ppm, (B) 52.05 and (C) 59.50 ppm respectively. The pH were within WHO limits of 8.10 and 8.20, conductivity in μs/cm was 20.10 and28.10 within acceptable range. Chloride was between 8, 130.00ppm and 22, 131.53 ppm higher than WHO and effluent discharge limits, while turbidity was between 46ppm-60ppm which was also higher. Hence there is need for holistic monitoring and remediation of produce water in the environment.

EVALUATION OF MICROBIAL LOAD AND SELECTED HEAVY METALS CONTAMINATION IN THE RIVER BEAS (PUNJAB) INDIA

Aim: To analyse the heavy metal contamination and microbial load in upstream (Talwara), midstream (Urmar Tanda) and downstream (Harike Pattan) stretches of the river Beas in Punjab. Methodology: Month-wise samples were collected in triplicate during the period of May to December, 2019. Heavy metal parameters such as Arsenic, Cadmium, Nickel, Lead and Zinc were analysed by Atomic Inductively Coupled Plasma Mass Spectrometry following standard protocol. Microbial load in water samples was calculated in terms of Total Plate Count, Total Coliform and Faecal Coliform as per following standard protocol. Statistical analysis involved calculating Analysis of Variance at 5% significant level (p<0.05). Results: The study revealed that heavy metal parameters like Arsenic, Cadmium, Nickel, Lead and Zinc ranged in mgl from 0.0 to 0.009, 0.0 to 0.02, 0.0 to 0.004, 0.0 to 0.001, and 0.0 to 0.036 respectively. Total Plate Count ranged from 0.32 4 5 -1 -1 x10 to 3.2 x10 cfu ml whereas, Total Coliforms and Faecal Coliforms ranged from 4.0 to 1100 MPN 100 ml and 0.0 to -1 460 MPN 100 ml respectively. The mean concentrations of analysed metals were recorded in the order of Zinc > Cadmium > Arsenic >Nickel >Lead; and most of them were under the permissible limits; however, the presence of faecal coliforms in the water is alarmingly high at Harike Pattan. Interpretation: This investigation revealed that the river Beas water is suitable for supporting aquatic life, bathing, irrigation and other purposes. The microbial load and the heavy metal parameters need to be monitored regularly, so that their adverse effects on living beings or aquatic organisms may be minimized. River stretch near Harike Pattan and Urmar Tanda being an important habitat of endangered freshwater Dolphin (Platanista gangetica minor), Smooth-Coated Otter (Lutrogale perspicilliata) and Ghariyal (Gavialis gangeticus) is more vulnerable to the toxic levels of heavy metals and contamination of faecal coliform.

New data about the distribution of nickel, lead and chromium in the coal seams of the DonetskMakiivka geological and industrial district of the Donbas

A modern and scientifically based indicators forecast of toxic and potentially toxic element concentrations allows us to develop and plan organizational and technicaltechnological measures aimed at reducing the negative impact of the coal industry and heating enterprises on the ecological state of the environment. For this purpose it is necessary to have data about concentration, character and features of the distribution of toxic and potentially toxic elements, including nickel, lead and chromium in coal and the rocks that contain it. Toxic elements are one of the main sources of environmental pollution thatnegatively affects human health. Research in this direction is conducted to reduce the degree of negative effects and additional pollution of the environment. Increasing requirements for environmental protection in the coal-mining industry sector of Ukraine stipulates the need for new scientifically grounded methods for forecasting the content of toxic and potentially toxic elements in the rock mass which is extracted by mines, the waste of coal extraction and coal enrichment and also the influence of the coal-heating enterprises on the environment. In the article, the results of investigations of toxic elements in coal seams of the Donetsk-Makiivka geological and industrial area of the Donbas are considered. The research covered the whole territory of one of the most studied geological and industrial districts of the Donbas – Donetsk-Makiivka. As a result of the study, correlation coefficients were calculated that allow us to predict the concentration of nickel, lead and chromium in the products and wastes of coal enrichment and correct the technological schemes of coal enrichment taking into account their content. We also calculated the regression equation between these elements and the ash content of the coal, which will allow us to predict their concentration in the main working coal seams of the DonetskMakiivka geological and industrial districts relative to the values of coal ash content. The character of the distribution is established and the weighted average concentrations and basic descriptive statistics for nickel, lead, and chromium in the coal seams and suites are calculated. The composition and character of their typomorphic geochemical associations, as well as the features and regularities of their accumulation in the coal seams of the Donetsk-Makiivka geological and industrial districts are revealed.