N. Yu. Tret’yakov scite author profile

The presence of aggregates of various sizes in the soil is an important condition for soil carbon sequestration. In this system, microbial biomass is a key link. This work was devoted to the study of the influence of land use systems on the distribution of SOС, MB-SIR, microbial activity and eco-physiological indices (qCO 2 , QR, MB-SIR/SOС and qCO 2 /SOС) in relation to the size of soil aggregates. The distribution of SOС, MB-SIR and mineralization activity among the aggregates was heterogeneous. In the soil of crop rotation, high mineralization activity and MB-SIR were found in the aggregates 0.5-0.1 mm, in the monoculture soil in aggregates <0.1 mm and in the control soil in the aggregates 1-0.25 mm. There was a general trend towards a decrease in microbial activity, MB-SIR and SOС availability with an increase in aggregate size. In agricultural soils, microbial activity was determined by large aggregates (>5 mm), while in the control soil, by the aggregates 5-1 mm. Depending on the type of site and the size of aggregates, the differences in microbial metabolism were revealed. The qCO 2 and QR values decreased, and the MB-SIR/SOС and qCO 2 /SOС increased in the series: control soil > crop rotation > monoculture. In the control soil, the values of the ecophysiological indices decreased with decreasing aggregate size. And vice versa, in agricultural soils, these parameters were the highest in the microaggregates (<0.25 mm). The monoculture soil, in contrast to the control soil and crop rotation soil, turned out to be more energy efficient.

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Polymer Retention Determination in Porous Media for Polymer Flooding in Unconsolidated Reservoir

Ilyasov¹,

Koltsov

Golub³

et al. 2021

Polymers

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Polymer flooding is a well-established technique aimed at improved recovery factors from oilfields. Among the important parameters affecting the feasibility of a large deployment, polymer retention is one of the most critical since it directly impacts the oil bank delay and therefore the final economics of the project. This paper describes the work performed for the East-Messoyakhskoe oilfield located in Northern Siberia (Russia). A literature review was first performed to select the most appropriate methodology to assess polymer retention in unconsolidated cores at residual oil saturation. 4 polyacrylamide polymers were selected with molecular weights between 7 and 18 M Da and sulfonated monomer (ATBS) content between 0 and 5% molar. An improved 2-fronts dynamic retention method along with total organic carbon—total nitrogen analyzers were used for concentration measurement. Retention values vary between 93 and 444 The sentence could be rephrased μg/g, with the lowest given by the polymers containing ATBS, corroborating other publications on the topic. This paper also summarizes the main learnings gathered during the adaptation of laboratory procedures and paves the way for a faster and more efficient retention estimation for unconsolidated reservoirs.

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Molecular-Thermodynamic Model of Solubilization in Direct Spherical Micelles of Nonionic Surfactants

et al. 2021

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ChemInform Abstract: Base‐Catalyzed Alkylation of Malonic Ester with Allyl Chloride in the Presence of Polyethylene Glycol.

et al. 1999

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N. Yu. Tret’yakov

Synthesis, structure, and properties of EuScCuS3 and SrScCuS3

Impact of agricultural land use on distribution of microbial biomass and activity within soil aggregates

Polymer Retention Determination in Porous Media for Polymer Flooding in Unconsolidated Reservoir

Molecular-Thermodynamic Model of Solubilization in Direct Spherical Micelles of Nonionic Surfactants

ChemInform Abstract: Base‐Catalyzed Alkylation of Malonic Ester with Allyl Chloride in the Presence of Polyethylene Glycol.

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