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Belov Vitaliy Mikhaylovich -
Moscow State University of Civil Engineering (MGSU)
Candidate of Technical Sciences, Associate Professor, Department of Heat Engineering and Heat and Gas Supply, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; +7 (499) 183-26-92;
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Miram Andrey Olegovich -
Moscow State University of Civil Engineering (MGSU)
Candidate of Technical Sciences, Professor, Department of Heat Engineering and Heat and Gas Supply, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; +7 (499) 183-26-92;
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The objective of the research performed by the authors is to identify the role of energy efficient engineering systems and to assure the energy saving and comfortable indoor environment. The choice of supply-exhaust ventilation systems versus cold supply systems with heat recovery are also considered in the article.The authors argue that the most comfortable and efficient heating system is the one composed of heating panels incorporated into enclosing structures of buildings to ensure the radiant temperature on the premises. This system used as a supplementary heating system backing the hot water heating system that has heating panels integrated into enclosing structures makes it possible to limit the solar heat supply into the premises in summer to improve the indoor environment, whereas any heat perceived by the water from the solar radiation may be expediently used for hot water supply purposes. In the summertime, the proposed system may reduce the solar heat supply, if chilled water is supplied into the system by chillers.Besides, the authors remind the audience that the choice of heating, ventilation and cooling systems needs to be made at the initial design stage depending on the purpose of the building and other factors affecting the rational choice of engineering systems. In some cases, zone heating systems or hot air systems are expedient.
DOI: 10.22227/1997-0935.2013.2.137-141
References
- Ryzhkova D.S. Innovatsii v teplosnabzhenii: preimushchestva panel’no-luchistogo otopleniya [Innovations in Heat Supply: Benefits of Panel-radiant Heating]. Molodezh’ I nauka : VIII Vserossiyskaya nauchno-tekhnicheskaya konferentsiya studentov, aspirantov i molodykh uchenykh, posvyashchennaya 155-letiyu so dnya rozhdeniya K.E. Tsiolkovskogo : sbornik nauchnykh trudov Sibirskogo federal'nogo universiteta [Youth and Science]. The 8th All-Russian Scientific and Technical Conference of Students, Postgraduates and Young Scientists Dedicated to the 155th Anniversary of K.E. Tsiolkovskiy. Collected works of Siberian Federal University. Krasnoyarsk, 2012.
- Belov S.V., Ilnitskaya A.V., Koziakov A.F., Devisilov V.A., Morozova L.L., Pavlikhin G.P., Pereezdchikov I.V., Sivkov V.P., Smirnov S.G. Bezopasnost’ zhiznedeyatel’nosti [Life Safety]. Moscow, Vysshaya Shkola Publ., 2007, 615 p.
- Timofeeva E.I., Fedorovich G.V. Ekologicheskiy monitoring parametrov mikroklimata [Ecological Monitoring of the Microclimate Parameters]. Moscow, NTM-Zashchita Publ., 2005, 193 p.
- Malyavina E.G. Teplopoteri zdaniya [Heat Losses of Buildings]. Moscow, ABOKPRESS Publ., 2007, 265 p.
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Volodina Lyudmila Aleksandrovna -
Moscow State University of Civil Engineering (MGSU)
postgraduate student, Department of Urban Development and Environmental Safety, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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Slepnev Mikhail Alekseevich -
Moscow State University of Civil Engineering (MGSU)
assistant lecturer, Department of Urban Development and Environmental Safety, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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The authors argue that there is a need to develop a system of monitoring of landslide processes, particularly in the city of Moscow. Widespread landslides around the world that lead to enormous social and economic losses make the resolution of this problem truly relevant. Landslides occur in 725 cities of Russia. 6 to 15 emergencies caused by landslides are registered in Russia each year.Having analyzed the current status of the system of monitoring and forecasting of landslide patterns in Moscow, the authors conclude that the present-day projections can only suggest a general idea of the pattern of future geological processes.Based on these references, literary sources and other materials, the authors are going to develop a geological cartographic model of the landslide pattern in Moscow using ArcGIS software developed by ESRI. The research information available to date will be useful if presented in the unified GIS environment as overlapping thematic layers. Each factor affecting the landslide process will be presented in the form of a layer entered into the database. Spatial Analyst is the most convenient tool that will take account of the interaction of factors.The result of the research and calculations will represent an interactive map of landslide processes in the area provided in the scale requested by the user.The interactive GIS system map will identify the characteristics of each process in the area to assess the reliability of engineering solutions, positive and negative consequences of environmental protection actions in order to make prompt decisions depending on variable environmental conditions.
DOI: 10.22227/1997-0935.2013.2.142-148
References
- Volodina L.A., Slepnev P.A. Sovershenstvovanie tekhnologii monitoringa gorodskikh territoriy, podverzhennykh opasnym ekzogennym geologicheskim protsessam [Improvement of the Technology of Monitoring of Urban Areas Exposed to Hazardous Exogenous Geological Processes]. Sá. tr. Mezhdunar. nauch. konf. Moskva 19—21 oktyabrya 2011 g. [Collected works of the International Scientific Conference, Moscow, October 19—21, 2011]. MGSU Publ., vol. 1, pp. 397—400.
- Vladimirov V.A., editor. XXI vek — vyzovy i ugrozy [21st Century: Challenges and Threats]. Moscow, In-oktavo Publ, 2005, 304 p.
- Osipov B.I. Prirodnye katastrofy na rubezhe XXI veka [Natural Disasters at the Turn of the 21st Century]. Vestnik Rossiyskoy akademii nauk [Proceedings of the Russian Academy of Sciences]. 2001, no. 4, vol. 71, pp. 291—302.
- Krupoderov V.S., Kurennoy V.V., Orfanidi E.K. Aktual’nye napravleniya gidrogeologicheskikh, inzhenerno-geologicheskikh i geoekologicheskikh issledovaniy [Relevant Lines of Hydro-geological, Geo-engineering and Geo-ecological Research]. Razvedka i okhrana nedr [Prospecting and Protection of Natural Resources]. 2008, no. 6, pp. 3—7.
- Popov A.G. Geologo-kartograficheskoe modelirovanie dlya resheniya prakticheskikh zadach [Geological and Cartographical Modeling for the Resolution of Practical Tasks]. ArcReview. 2006, no. 4 (39), pp. 13—15.
- Gokhman V.V. Esri: ot istokov do nashikh dney [Esri: from the Origins to the Present Day]. ArcReview. 2011, no. 4 (59), pp. 1—3.
- Zerkal’ O.V. GIS pri prognozirovanii ekzogennykh geologicheskikh protsessov [GIS in the Projection of Exogenous Geological Processes]. ArcReview. 2003, no. 3 (26), pp. 7—8.
- Chac?on J., Irigaray C., Fern?andez T., and El Hamdouni R. Engineering Geology Maps: landslides and Geographical Information Systems. Bulletin of Engineering Geology and the Environment. 2006, no. 65, pp. 341—411.
- Costanzo D., Rotigliano E., Irigaray C., Jim?enez-Per?alvarez J. D., Chac?on J. Factors Selection in Landslide Susceptibility Modeling on Large Scale following the GIS Matrix Method: Application to the River Beiro Basin (Spain). Natural Hazards and Earth System Sciences. 2012, no. 12, pp. 327 — 340. Available at: http://www.natural-hazards-and-earthsystem-sciences.net. Date of access: November 1, 2012.
- Vozhik A.A., Shamurzaeva D.A., Markar’yan V.V., compilers. Informatsionnaya svodka o proyavleniyakh ekzogennykh geologicheskikh protsessov na territorii Rossiyskoy Federatsii za III kvartal 2010 g. [Summary Information on Manifestations of Exogenous Geological Processes in the Territory of the Russian Federation in the 3d Quarter of 2010]. Tsentr GMSN FGUGP «Gidrospetsgeologiya» [Center for the State Monitoring of the State of the Subsoil of the Federal State Unitary Geological Enterprise “Special Hydro-Geology”]. Available at: http://www.geomonitoring.ru. Date of access: September 16, 2012.
- McCoy J., Johnston K. Using ArcGIS Spatial Analyst ESRI. Redlands, California, USA 2001—2002.
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Nguyen Van Long -
Voronezh State University of Architecture and Civil Engineering (Voronezh GASU)
postgraduate student, Department of Motor Road Building and Operation, Voronezh State University of Architecture and Civil Engineering (Voronezh GASU), 84 XX-letiya Oktyabrya St., Voronezh, 394006, Russian Federation;
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Le Van Chung -
Voronezh State University of Architecture and Civil Engineering (Voronezh GASU)
postgraduate student, Department of Motor Road Building and Operation, Voronezh State University of Architecture and Civil Engineering (Voronezh GASU), 84 XX-letiya Oktyabrya St., Voronezh, 394006, Russian Federation;
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Natural calamities cause destruction of highways and artificial structures that they accommodate, thus, inflicting a substantial damage onto the national economy. The authors describe various natural phenomena and geological processes typical for North Vietnam. The reasons for and the characteristics of each type of disasters are also provided in the article. The authors have generated a set of actions aimed at prevention or mitigation of damages, and they are enlisted in the article. The authors make their conclusions in respect of the future areas of research and the monitoring of interaction between the road surface, the transport infrastructure and the environment. Attainment of the aforementioned objective involves road surface monitoring to be accompanied by specific researches and compilation of maps of the areas exposed to frequent natural calamities. Timely notification of upcoming natural calamities and provision of effective recommendations are needed for the population to get prepared for the adverse events in advance. Besides, restriction of earth works in the areas exposed to natural disasters is necessary.Road building projects must incorporate environmental protection, organizational, technology and designelated actions aimed at the improvement of operating parameters of road beds of highways and at prevention of any further negative consequences in the course of operation of highways. Intensive wood planting and restriction of mining operations in specific areas are to be implemented.
DOI: 10.22227/1997-0935.2013.2.149-156
References
- Samarin A.N., Ermakova I.V., Lisovskiy Yu.A., Fionova L.K. Kto platit za nauchnotekhnicheskiy progress [Who Pays for the Technological Progress]. Rossiyskaya Federatsiya segodnya [Russian Federation Today]. 2011, no. 8, pp. 30—33.
- Pham Van Thuc, Nguyen Dinh Xuyen, Bui Cong Que, Nguyen Kim Lap. Seismic Zoning of the Territory of Vietnam. Acta Geophysica Polonica. 1985, vol. 33 (2), pp. 147—167.
- Nguen Duc Sy. Povyshenie ustoychivosti nasypi zemlyanogo polotna, ukreplennoy kompleksnymi dobavkami [Improvement of Stability of the Subgrade of Embankments Reinforced by Multi-component Additives]. Nauchnyy vestnik Voronezh GASU. Stroitel’stvo i arkhitektura [Scientific Herald of Voronezh State University of Architecture and Civil Engineering. Construction and Architecture]. 2012, no. 1 (25), pp. 117—124.
- Podol’skiy Vl.P., Zhuravlev V.D., Glagol’ev A.A. Meropriyatiya vo sboru i ochistke stokov s poverkhnosti dorog i mostov [Actions That Encompass Collection and Treatment of Drained Water on Road Pavements and Bridge Decks]. Nauchnyy vestnik Voronezh GASU. Dorozhno-transportnoe stroitel’stvo [Scientific Herald of the Voronezh State University of Architecture and Civil Engineering. Road Building]. 2005, no. 4, pp. 142—146.
- Nguen Duc Sy. Vliyanie izmeneniy prirodno-klimaticheskikh usloviy na sostoyanie avtomobil’nykh dorog vo Vietname [Influence of Changes in Natural and Climatic Conditions onto Condition of Highways in Vietnam]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 7, pp. 622—626.
- Nguen Duc Sy. Opolznevye yavleniya na magistral’nykh dorogakh Severnogo V’etnama [Landslides on Highways of North Vietnam]. Inzhenernye sistemy i sooruzheniya [Engineering Systems and Structures]. 2010, no. 1 (2), pp. 170—173.
- Podol’skiy Vl.P. Dorozhnaya ekologiya [Ecology of Roads]. Moscow, Soyuz Publ., 1997, 186 p.
- Podolskiy Vl.P. Kompleksnaya otsenka ekologicheskoy bezopasnosti avtomobil’noy dorogi [Comprehensive Assessment of Environmental Safety of Highways]. Avtomobil’nye dorogi [Highways]. 1993, no. 2, pp. 17—18.
- Podolskiy Vl.P., Artyukhov V.G., Turbin V.S., Kanishchev A.N. Avtotransportnoe zagryaznenie pridorozhnykh territoriy [Pollution of Roadside Territories]. Voronezh, VGU Publ., 1999, 264 p.
- Podolskiy Vl.P., Butyrin V. M. Finansirovanie zashchitnykh meropriyatiy po okhrane okruzhayushchey sredy [Financing of Environmental Protection Actions]. Avtomobil’nye dorogi [Highways]. 1995, no. 10, pp. 32—33.
- Podol’skiy Vl.P., Rezvantsev V.I. Okhrana okruzhayushchey sredy pri razrabotke proektno-smetnoy dokumentatsii na stroitel’stvo dorog [Environmental Protection within the Framework of Development of Design Specifications and Estimates for Road Building Projects]. Ekspress-informatsiya Minavtodora RSFSR [Summarized Reports of the Ministry of Motor Roads of the Russian Federal Soviet Socialist Republic]. 1985, no. 6, pp. 17—21.
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Poddaeva Ol’ga Igorevna -
Moscow State University of Civil Engineering (MGSU)
+7 (495) 739-33-02, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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Dunichkin Il’ya Vladimirovich -
Moscow State University of Civil Engineering (MGSU)
Candidate of Technical Sciences, Senior Researcher, Training, Research and Production Laboratory of Wind-tunnel and Aeroacoustic Testing of Civil Engineering Structures, Associate Professor, Department of Design of Buildings and Urban Development, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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Prokhorova Tat’yana Vladimirovna -
Moscow State University of Civil Engineering (MGSU)
assistant lecturer, Department of Theoretical Mechanics and Aerodynamics; +7 (495) 644-30-73, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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The authors consider the restructuring of Moscow residential housing areas and identify potential wind energy capacities to be based on the integration of wind turbines into urban buildings. The authors propose their original method designated for the assessment of wind patterns and developed in furtherance of Guidelines for Assessment and Management of Wind Patterns of Residential Areas, developed by Central Scientific Research and Design Institute for Urban Planning. Moreover, the authors describe several options for the restructuring of residential buildings, namely, such restructuring techniques as over-stories, link buildings, attics or building extensions added to the existing buildings.The authors provide their typological classification of planning concepts designated for the residential housing development, including the ribbon-type concept, key-type concept, low-storey concept, sporadic concept and their combinations. A comparative analysis of different wind patterns of buildings and various types of their restructuring is proposed. The authors make an attempt to prognosticate the prospects for the application of the wind power potential assessment methodology and its possible application in the course of design of multiomponent restructuring of residential buildings. The article is written within the framework of State Contract 16.552.11.7064 dated 13.07.2012.
DOI: 10.22227/1997-0935.2013.2.157-165
References
- Astakhov S.M. Mirovoy opyt i perspektivy ispol’zovaniya vozobnovlyaemykh istochnikov energii v sisteme elektrosnabzheniya sel’skikh poseleniy [Global Experience and Prospects for Use of Renewable Sources of Energy in the System of Power Supply of Rural Areas]. Vestnik OrelGAU [Proceedings of Orel State University of Agriculture]. 2009, no. 5, pp. 29—31.
- Shuyskiy V.P. Mirovye rynki vozobnovlyaemykh istochnikov energii v pervoy polovine XX veka [The World Markets of Renewable Sources of Energy in the First Half of the 20th Century]. Rossiyskiy vneshneekonomicheskiy vestnik [Russian Bulletin of Foreign Economics]. 2010, no. 1, pp. 21—29.
- Popel’ O.S. Tumanov V.L. Vozobnovlyaemye istochniki energii: sostoyanie i perspektivy razvitiya [Renewable Sources of Energy. Status and Prospects for Development]. Al’ternativnaya energetika i ekonomika [Alternative Power Engineering and Economics]. 2007, no. 2(46), pp. 135—148.
- Duffy M.J. Small Wind Turbines Mounted to Existing Structures. Atlanta, Georgia Institute of Technology, USA, 2010, 105 p.
- Alekseev Yu.V., Dunichkin I.V. Aerodinamicheskie osobennosti pyatietazhnoy zastroyki [Aerodynamic Peculiarities of Five-storey Buildings]. Zhilishchnoe stroitel’stvo [Residential Housing]. 2004, no. 12, pp. 5—8.
- Gandemer J., Guy A. Integration du phenonene vent dans la conception du milieu bati. Ministere et de l’eqipement, Paris, 1976, 130 p.
- Valitov Sh.M. Strategicheskie prioritety razvitiya vozobnovlyaemykh istochnikov energii [Strategic Priorities for Development of Renewable Sources of Energy]. Vestnik KGFEI [Proceedings of Kazan State Institute of Finance and Economics]. 2010, no. 3(20), pp. 52—56.
- Poddaeva O.I., Dunichkin I.V., Kochanov O.A. Osnovnye podkhody k issledovaniyu vozobnovlyaemykh istochnikov energii kak energeticheskogo potentsiala territoriy i zastroyki [Basic Approaches to the Research of Renewable Sources of Energy as the Energy Potential of Territories and Built-up Areas]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 10, pp. 221—228.
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Potapov Ivan Aleksandrovich -
Scientific and Research Institute of Emergency Healthcare named after N.V. Sklifosovskiy
engineer, Scientific and Research Institute of Emergency Healthcare named after N.V. Sklifosovskiy, ;
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Potapov Aleksandr Dmitrievich -
Moscow State University of Civil Engineering (MGSU)
Doctor of Technical Sciences, Professor, Head, Department of Engineering Geology and Geoecology, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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Shimenkova Anastasiya Anatol’evna -
Moscow State University of Civil Engineering (MGSU)
engineer, Department of Engineering Geology and Geoecology, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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The authors consider the strength development of sandy soils in the contest of the physical chemical theory of effective stresses. The authors drive particular attention to the assessment of formation of various types of energy contacts in sandy soils. The article is based on the overview of theories developed by several researchers, on the one hand, and on the findings of the experimental research of sandy soils that have different structural patterns, on the other hand. The experiments include both those that were held a while ago and the most recent projects. The authors have proven that the strength of sandy soils is, to a significant extent, driven by their morphological peculiarities that determine their condition in the context of the assessment of their “densitymoisture”. Strength values of sands are dependent on their moisture content both in terms of their maximal shear stress values obtained in the course of shear testing, or their per-unit penetration resistance, penetration values, as well as the inner friction angle and cohesion. The “strength-moisture” is presented as a curvilinear graph that has two upper limits, one for shear tests and the other one for penetration tests. Maximal strength, according to the shear test, is attained for dry sands, if their moisture content is close to the “optimal” value. As for the penetration tests, maximal per-unit resistance to penetration and penetration values are also close to the “optimal” moisture content value. The authors have identified that moisture content is an important factor of strength of sandy soils that demonstrate various structural characteristics.However, the process of formation of structural peculiarities of sands, namely, their morphological parameters and the nature of the surface of sand particles is influenced by the presence of various films on the surface of sand particles. The article represents a preliminary analysis of the theoretical and experimental findings, therefore, any discussions are welcome.
DOI: 10.22227/1997-0935.2013.2.166-180
References
- Potapov A.D. Nauchno-metodologicheskie osnovy geoekologicheskoy bezopasnosti stroitel’stva [Scientific and Methodological Fundamentals of Geo-ecological Safety of Construction Works]. Moscow, MGSU Publ., 2002, 312 p.
- Anan’ev V.P., Potapov A.D. Inzhenernaya geologiya [Engineering Geology]. Moscow, Vyssh. shk. publ., 2008, 346 p.
- Potapov A.D. Ekologiya [Ecology]. Moscow, Vyssh. shk. publ., 2005, 328 p.
- Platov N.A., Potapov A.D., Lebedeva M.D.. Peschanye grunty [Sandy Soils]. Moscow, ASV Publ., 2008, 186 p.
- Potapov A.D., Potapov I.A., Shimenkova A.A. Nekotorye aspekty primenimosti k peschanym gruntam polozheniy fiziko-khimicheskoy teorii effektivnykh napryazheniy [Particular Aspects of Applicability of Provisions of the Physical and Chemical Theory of Effective Stresses to Sandy Soils]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 10, pp. 229—239.
- Potapov I.A., Potapov A.D., Shimenkova A.A. Formirovanie raznykh tipov energeticheskikh kontaktov v peschanykh gruntakh v aspekte fiziko-khimicheskoy teorii effektivnykh napryazheniy [Formation of Different Types of Energy Contacts in Sandy Soils in the Framework of the Physicochemical Theory of Effective Stresses]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 11, pp. 210—218.
- Potapov I.A., Shimenkova A.A., Potapov A.D. Zavisimost’ suffozionnoy ustoychivosti peschanykh gruntov razlichnogo genezisa ot tipa fil’trata [Dependence of Suffosion Stability of Sandy Soils of Various Geneses on the Type of Filtrate]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 5, pp. 79—86.
- Potapov A.D., Potapov I.A., Shimenkova A.A. Rol’ plotnosti — vlazhnosti v peschanykh gruntakh v formirovanii effektivnykh napryazheniyakh s pozitsiy fiziko-khimicheskoy teorii [The Role of the “Density – Moisture” of Sandy Soils in Formation of Efficient Stresses from the Perspective of the Physicochemical Theory]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 12, pp. 104—110.
- Senyushchenkova I.M. Teoriya formirovaniya i metody razvitiya urbolandshaftov na ovrazhno-balochnom rel’efe [Theory of Formation and Methods of Development of Urban Landscapes in the Gully Relief]. Moscow, MGSU Publ., 2011, 376 p.
- Osipov V.I. Fiziko-khimicheskaya teoriya effektivnykh napryazheniy v gruntakh [Physicochemical Theory of Effective Stresses in Soils]. IGE RAN [Institute of Geo-ecology of the Russian Academy of Sciences]. Moscow, IFZ RAN [Institute of Physics of the Earth (IPE)], 2012, 74 p.
- Osipov V.I. Strukturnye svyazi kak osnova otsenki fiziko-mekhanicheskikh svoystv glinistykh porod [Structural Links as the Basis for Assessment of Physical Mechanical Properties of the Glay Rock]. Sovershenstvovanie metodov laboratornykh issledovaniy gruntov pri inzhenernykh izyskaniyakh dlya stroitel’stva : Tezisy dokladov 2 Respublikanskogo soveshchaniya. [Improvement of Methods of Laboratory Testing of Soils as Part of Engineering Surveys for Civil Engineering Purposes. Abstracts of Reports of the 2nd Republican Meeting]. Moscow, Stroyizyskaniya Publ., 1977, pp. 29—40.
- Trofimov V.T. Gruntovedenie [Pedology]. Moscow, MGU Publ., Nauka Publ., 2005, 1024 p.
- Gol’dshteyn M.N. Mekhanicheskie svoystva gruntov. Osnovnye komponenty grunta I ikh vzaimodeystvie. [Mechanical Properties of Soils. Principal Components of Soil and Their Interaction]. Moscow, Stroyizdat Publ., 1973, 375 p.
- Tsytovich N.A. Mekhanika gruntov [Soil Mechanics]. Moscow, Gosstroyizdat Publ., 1963.
- Sergeev E.M. Granulometricheskaya klassifikatsiya peskov [Granulometric Classification of Sands]. Vestn. MGU. Ser. biol. i pochv. [Proceedings of Moscow State University. Biology and Soil Series]. 1953, no. 12, pp. 49—56.
- Potapov A.D. Morfologicheskoe izuchenie peskov razlichnogo genezisa v inzhenerno-geologicheskikh tselyakh [Morphological Research of Sands of Various Geneses for Engineering Geology Purposes]. Moscow, PNIIIS [Production, Scientific and Research Institute of Engineering Surveying in Construction], 1982.
- Rebinder P.A. Strukturno-mekhanicheskie svoystva glinistykh porod i sovremennye predstavleniya fiziko-khimii kolloidov [Structural and Mechanical Properties of Clay Soils and the Present-day Ideas of Physics and Chemistry of Colloids]. Trudy Soveshchaniya po inzhenerno-geologicheskim svoystvam gornykh porod i metodam ikh izucheniya [Collected Works of Geo-engineering Properties of Rocks and Methods of Their Study]. Moscow, AN SSSR Publ., 1956, vol. 1, pp. 31—44.
- Mikhaylov N.V., Rebinder P.A. O strukturno-mekhanicheskikh svoystvakh dispersnykh i vysokomolekulyarnykh sistem [Structural Mechanical Properties of Disperse and High Molecular Systems]. Kolloidnyy zhurnal [Colloid Journal]. 1955, vol. 17, no. 2, pp. 112—119.
- Ter-Stepanyan G.I. O vliyanii formy i raspolozheniya chastits na protsess sdviga v gruntakh [Influence of Shape and Position of Partickes onto the Process of Shear of Soils]. Izv. AN ArmSSR [News of the Academy of Sciences of Armenian Soviet Socialist Republic]. 1948, vol. 1, no. 2, pp. 167—185.
- Gor’kova I.M. Strukturnye i deformatsionnye osobennosti osadochnykh porod razlichnoy stepeni uplotneniya i litifikatsii [Structural and Deformation-related Peculiarities of Sedimentary Rocks That Have Different Compaction and Lithification Values]. Moscow, Nauka Publ., 1966, 128 p.
- Durante V.A. Opyt issledovaniya plotnosti peskov metodom glubinnogo zondirovaniya [Practical Research into the Density of Soils Using Method of Deep Sounding]. Trudy Soveshchaniya po inzhenerno-geologicheskim svoystvam gornykh porod i metodam ikh izucheniya [Works of the Meeting Dedicated to the Geo-engineering Properties of Rocks and Methods of Their Study]. Moscow, AN SSSR Publ., 1956, vol. 1, pp. 249—258.
- Lysenko M.P. Sostav i fiziko-mekhanicheskie svoystva gruntov [Composition and Physical Mechanical Properties of Soils]. Moscow, Nedra Publ., 1972.
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