A. V. Gruzin scite author profile

A. V. Gruzin

21Publications

2Citation Statements Received

15Citation Statements Given

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116

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Omsk State Technical University

Publications

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The Artificial Additives Effect to Soil Deformation Characteristics of Oil and Oil Products Storage Tanks Foundation

Gruzin

Токарев

Шалай

et al. 2015

Procedia Engineering

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The comprehensive analysis was carried for searching the ways of load reduction to the environment in the process of oil and oil products tanks construction and maintenance. The laboratory studies results of expanded polystyrene granules adding effect in an average size sandy soil to a relative vertical deformation of the obtained mixture under the loadings arising under the tanks bottom for a liquid hydrocarbons storage in the process of their maintenance are presented.

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Theoretical Researches of Rammer's Operating Element Dynamics in a Soil Foundation of Oil and Oil Products Storage Tank

Gruzin

Shalay

2016

Procedia Engineering

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Justification of parameters and selection of equipment for laboratory researches of a rammer’s operating element dynamics in a soil foundation of a tank for oil and oil products storage

Gruzin¹,

Gruzin²,

Shalay³

2017

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Model dynamics of a rammer’s operating element in a soil foundation of a tank for liquid hydrocarbons storage

Gruzin¹,

Gruzin²,

Shalay³

2018

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Improvement of a dispersed non-cohesive soil deformation model

Gruzin

Gruzin²

2018

DSMM

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Казахский агротехнический университет им. С. Сейфуллина, г. Астана, Казахстан Аннотация. Освоение новых территорий, как правило, осложняется необходимостью предварительной подготовки грунтовых оснований с целью улучшения их деформационных свойств. В настоящее время, при всём разнообразии технологий улучшения деформационных свойств грунтов оснований, предпочтение в основном отдаётся механическим способам, а именно уплотнению грунтов оснований. Разработка новых и уточнение существующих моделей деформации грунтов являются перспективными направлениями совершенствования и разработки новых технологий механического уплотнения грунтовых оснований. С целью оценки адекватности описания существующими моделями деформации дисперсного несвязного грунта практическим результатам были выполнены теоретические исследования. В качестве образца дисперсного несвязного грунта был использован песчаный грунт средней крупности, для которого в лабораторных условиях была определена деформационная характеристика. Сравнительный анализ теоретических и экспериментальных данных позволил дать оценку адекватности аппроксимации результатов лабораторных исследований деформации песчаного грунта для рассмотренных моделей. Максимальная величина относительной ошибки аппроксимации лабораторных данных данной моделью не превысила 0.145. По результатам выполненных исследований в качестве модели деформации дисперсных несвязных грунтов предлагается использовать зависимость вида

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Improvement of a dispersed non-cohesive soil deformation model

Gruzin¹,

Gruzin

2019

J. Phys.: Conf. Ser.

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Method of the cast-in-place friction pile well walls local soil compaction

Gruzin

2018

J. Phys.: Conf. Ser.

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Justification and selection of rational parameters of drilling piles of engineering structures (on the example of soil conditions of the Chayandinskoye oil and gas condensate field)

Gruzin

2021

J. Phys.: Conf. Ser.

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Solving the problem of rational use of building materials in the development of new fields helps to minimize ineffective consumption of applied resources. The purpose of the conducted research was to develop recommendations on the selection of rational parameters of drilling piles for engineering structures constructed on soils of the Chayandinskoye oil and gas condensate field. Bearing capacity of a base of a vertically loaded friction pile was calculated by means of existing methods. Selection of specific bearing capacity as a target parameter characterizing the efficiency of building materials and bearing capacity enabled to give a comprehensive estimate of influence of structural parameters and natural factors on bearing capacity of bored piles in a foundation soil. A complex nature of pile geometric characteristics and ground conditions’ influence on the target parameter was established during theoretical calculations. For geotechnical conditions of the Chayandinskoye oil and gas condensate field, it was established that the use of piles with a bigger diameter of 0.4-0.5 m and the length of 6 m in soils with a temperature of no more than -2.0 °C and an ice content of no more than 0.2 is rational. Practical recommendations to use the results obtained during the performed studies can reduce inefficient costs of not only material, but energy and time resources in conditions of remote industrial facilities and logistics bases.

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A. V. Gruzin

The Artificial Additives Effect to Soil Deformation Characteristics of Oil and Oil Products Storage Tanks Foundation

Theoretical Researches of Rammer's Operating Element Dynamics in a Soil Foundation of Oil and Oil Products Storage Tank

Justification of parameters and selection of equipment for laboratory researches of a rammer’s operating element dynamics in a soil foundation of a tank for oil and oil products storage

Model dynamics of a rammer’s operating element in a soil foundation of a tank for liquid hydrocarbons storage

Improvement of a dispersed non-cohesive soil deformation model

Improvement of a dispersed non-cohesive soil deformation model

Method of the cast-in-place friction pile well walls local soil compaction

Justification and selection of rational parameters of drilling piles of engineering structures (on the example of soil conditions of the Chayandinskoye oil and gas condensate field)

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