ARCHITECTURE AND URBAN DEVELOPMENT. RESTRUCTURING AND RESTORATION

V.I. MUKHINA’S SCULPTURE «WORKER AND COLLECTIVEFARM GIRL»: CONSTRUCTION ASPECTS OF CREATION AND RECONSTRUCTION

Vestnik MGSU 6/2013
  • Molokova Tat’yana Alekseevna - Moscow State University of Civil Engineering (MGSU) Candidate of Historical Sciences, Associate Professor, Chair, Department of History and Culture Studies; +7 (499) 183-21-29., Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 35-41

The article covers the problems of reconstruction of the famous sculptural group designed by V.I. Mukhina «Worker and Collective Farm Girl», created in the 1930s for the Soviet pavilion of the universal exposition in Paris in 1937. The author considers the structural and cultural features of the monument and drives attention to the synthesis of architecture and sculpture in the pavilion designed by B.M. Iofan.The author also emphasizes some constructive features of the sculpture such as the scarf which is an important compositional and constructive element, and describes the process of preparation of the sculpture to construction in Paris and assembly in Moscow after The Paris World Exposition. The author touches the problem of the sculpture installation in Soviet period. The author performs a comparative analysis of the sculpture before and after its reconstruction and covers the aspects of construction works, including the construction of a new modern pavilion, or a pedestal for the sculpture.

DOI: 10.22227/1997-0935.2013.6.35-41

References
  1. Voronov N.V. Rabochiy i kolkhoznitsa [Worker and Collective Farmer Girl]. Moscow, Moskovski Rabochi Publ., 1990, p. 78.
  2. Samin D.K. Samye znamenitye zodchie Rossii [The Most Famous Architects of Russia]. Moscow, Veche Publ., 2004, 43 p.
  3. Kostina O. «Rabochiy i kolkhoznitsa». Skul’ptura i vremya [Worker and Collective Farmer Girl. Sculpture and Time]. Moscow, Sovetski Khudozhnik Publ., 1987, 100 p.
  4. Gur’yanova I. Kolkhoznitsa — eto ya [I Am the Collective Farm Girl]. Moskovskie vedomosti [Moscow Chronicles]. No. 10(158), March 20, 2000, p. 3.
  5. Moskovskiy Gosudarstvennyy Stroitel’nyy Universitet: istoriya i sovremennost’ [Moscow State University of Civil Engineering: History and Present Days]. Moscow, 2001, ASV Publ., pp. 130—131.
  6. Molokova T.A., Frolov V.P. Pamyatniki kul’tury Moskvy: iz proshlogo v budushchee [Landmarks of Moscow Culture: from the Past into the Future]. Moscow, ASV Publ., 2010, 121 p.
  7. Moskovskoe nasledie [Moscow Legacy]. 2009, no. 9, p. 46.

Download

MONUMENTS TO THE PATRIOTIC WAR OF 1812

Vestnik MGSU 6/2012
  • Frolov Vladimir Pavlovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Candidate of Historical Sciences, Associate Professor, Department of History and Philosophy, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoye shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 23 - 28

The article covers a relevant historical and cultural problem of elaboration and maintenance of monuments of the military glory of 1812. The author considers various architectural and sculptural monuments illustrating heroic events of Patriotic war of 1812, built in the two Russian capitals - Moscow and Saint Petersburg in different historical periods, and also in primordial Russian towns, such as Smolensk, Vyazma, and Maloyaroslavets. Architectural and composition-related features of this or that monument erected against the background of historic events of the war of 1812 are analyzed in detail. The author demonstrates the links between architecture and sculpture within the framework of town-planning solutions implemented in the pieces that have found their places in the towns enlisted above.
The value of symbols of the Victory and Glory of the Russian army and the Russian people is marked. The names of the most famous heroes of this war, starting from a field marshal and ending with a soldier are inscribed.
By addressing the historical and cultural heritage of Russia, the author informs readers about the most significant events of the war. The author mentions an acute problem of the modernity, that is, preservation and restoration of monuments, and shares his view point.
The value of the historic and cultural heritage of Russia for military and patriotic education is emphasized. The article is prepared within the framework of the year of the Russian history.

DOI: 10.22227/1997-0935.2012.6.23 - 28

References
  1. Smirnov A.A. Moskva – geroyam 1812 goda [Moscow Contribution Addressed to the Heroes of 1812]. Moscow, Moskovskiy Rabochiy Publ., 1977, p. 148.
  2. Molokova T.A., Frolov V.P. Pamyatniki kul’tury Moskvy: iz proshlogo v budushchee [Monuments of Culture of Moscow: from the Past into the Future]. Moscow, ASV Publ., p. 85.
  3. Ashik V.A. Pamyatniki i medali v pamjyat’ boevyh podvigov russkoy armii 1812 g. [Monuments and Medals Commemorating the Fighting Feats of the Russian Army in 1812]. St.Petersburg, 1913, p. 144.
  4. Piliyavskiy V.I. Russkie triumfal’nye pamyatniki [Monuments to the Russian Triumph]. Leningrad, Stroyizdat Publ., 1960, p. 56.
  5. Kirichenko E.I. Hram Hrista Spasitelya v Moskve [Church of the Christ the Savior in Moscow]. Moscow, Planeta Publ., 1992, p. 260.
  6. Pamyatniki arhitektury Leningrady [Architectural Monuments of Leningrad]. Leningrad, Stroyizdat Publ., 1976, p. 150.

Download

Social, ethnical, cultural and confessional features of architectural heritage of monasteries

Vestnik MGSU 6/2014
  • Frolov Vladimir Pavlovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Candidate of Historical Sciences, Associate Professor, Department of History and Philosophy, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoye shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 35-43

Monasteries, their activity and lifestyle have always played an important role in the culture of various nations. Monasteries are objects of cultural heritage. Their architecture is connected with national features on a nation, particular canons of Christian (orthodox, catholic), Buddhistic or other religion. The article describes ancient monasteries in Russia amid the global development, historical national characteristics monasteries are analyzed, as well as architectural ensembles, reflecting the function and role of monasteries in public life, showing their spiritual and cultural heritage, monastic tradition, the historical value of the monastic landscape and its conservation conditions, the inclusion of the monasteries in the world cultural heritage is noted.

DOI: 10.22227/1997-0935.2014.6.35-43

References
  1. Bol'shaya illyustrirovannaya entsiklopediya [Big Illustrated Encyclopedia]. In 32 volumes. Moscow, AST, Astrel' Publ., 2010, vol. 18, p. 143.
  2. Komech A.I. Russkie monastyri. Istoriya i kul'tura X—XVII stoletiya [Russian Monasteries. History and Culture of X—XVII Centuries]. Moscow, Art-BMB Publ., 2001, p. 21.
  3. Klyuchevskiy V.O. Skazanie inostrantsev o Moskovskom gosudarstve [Legend of Foreigners about Muscovy]. Moscow, Prometey Publ., 1991, p. 167.
  4. Antonova L.V., Titova T.V. Arkhitekturnye shedevry Rossii [Architectural Masterpieces of Russia]. Moscow, Dom Slavyanskoy Knigi Publ., 2009, p. 44.
  5. Bryusova V.G. Ipat'evskiy monastyr' [Ipatiev Monastery]. Moscow, Iskusstvo Publ., 1981, p. 27.
  6. Likhachev D.S., Savitskaya O.D. Arkhitekturno-khudozhestvennye pamyatniki [Solovetskikh ostrovov [Architectural and Artistic Monuments of the Solovetsky Islands]. Moscow, Iskusstvo Publ., 1980, p. 32.
  7. Skopin V.V., Shchennikova L.A. Arkhitekturno-khudozhestvennyy ansambl' Solovetskogo monastyrya [Architectural Ensemble of the Solovetsky Monastery]. Moscow, Iskusstvo Publ., 1981, p. 53.
  8. Molokova T.A. Svyatitel' Filipp — patriot i stroitel' pravoslavnoy Rossii [St Philip — Patriot and Builder of Russian Orthodox]. Moscow, MGSU Publ., 2006, pp. 18, 20.
  9. Burov V.A. Istoriya keleynoy zastroyki Solovetskogo monastyrya XV—XIX vekov: monografiya [Exclusionary Story Building Solovetsky Monastery XV—XIX Centuries]. Institute of Archeology of Russian Academy of Sciences, Solovki State Historical, Architectural and Natural Museum-Reserve, Arkhangel'sk, 2011, p. 26.
  10. Maksakovskiy V.P. Vsemirnoe kul'turnoe nasledie [World Cultural Heritage]. Moscow, Eko-pros Publ., 2000, p. 381.
  11. Arenkova Yu.I., Mekhova G.I. Donskoy monastyr' [Don Monastery]. Moscow, Iskusstvo Publ., 1970, p. 67.
  12. Petrova E.N. Russkie monastyri. Iskusstvo i traditsii [Russian Monasteries. Art and Traditions]. Saint Petersburg, Palace Edition, 1997, p. 112.
  13. Chelnokov A. Pokrovskiy stavropigial'nyy zhenskiy monastyr' u Pokrovskoy zastavy [Intercession Pokrovsky Monastery]. Moscow, Pokrovskiy stavropigial'nyy zhenskiy monastyr' Publ., 2010, p. 57.
  14. Shchenkov A.S., editor. Arkhitekturnoe nasledie na rubezhe XX—XXI vekov: Problemy restavratsii i okhrany naslediya [Architectural Heritage in 20—21st Centuries. Moscow, KRASAND Publ., 2010, p. 51.
  15. Pokrovskaya E.N., Koval'chuk Yu.L. Biokorroziya, sokhranenie pamyatnikov istorii i arkhitektury [Biocorrosion, Preservation of Historical Monuments and Architecture. Moscow, MGSU Publ., 2013, p. 28, 57.

Download

Reliable and adequateengineering surveys for construction: the rule of two D

Vestnik MGSU 1/2014
  • Rakitina Natal'ya Nikolaevna - Mosgorgeotrest geologist, Geologic Supervi- sion Services, Mosgorgeotrest, 11 Leningradskiy Prospekt, Moscow, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • 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; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 90-97

In the article the current state of quality supply of engineering surveys for construction is discussed. The main criteria for improving the design quality of buildings and structures for industrial, civil and other purposes is the reliability and adequacy of the results of engineering-geological surveys. The authors show the examples of inadequate study of engineering-geological conditions in the design of structures that led to emergency situations. Consideration of the reasons of accidents in structures showed that they are caused by lack of research conducted, the underestimation of the complexity of geological conditions. In the process of conducting geotechnical investigations the works were focused directly in the enclosure of a designed building, and the features of geological and hydrogeological conditions of the off-site were much more complex. In the process of construction during the sinking of the pit activation suffusion processes occurred, which led to an accident. Underestimation of the use of these geological funds in this example shows that even in the presence of fund materials, which are currently almost not increased, errors may occur due to the notorious savings for research. The requirements to ensuring the reliability and adequacy of engineering-geological surveys, which the authors call "The Rule of two D" (in Russian — Reliability and Adequacy), lie in the existing legal acts. The practice of fulfilling requirements to a large extend shows that the desire to save money at the stage of design and exploration works results in additional costs for additional design, recovery from accidents and works on a new project. The authors critically evaluated the development of engineering and geotechnical engineering instead of geological survey, which is not methodologically and theoretically substantiated and leads to the excluding from engineering surveys the consideration of the off-site geotechnical conditions directly below the designed structure. The authors give the recommendations for improving the examination quality of the results of surveys and recommendations on obligatory increase of geological funds.

DOI: 10.22227/1997-0935.2014.1.90-97

References
  1. Osipov V.I., Medvedev O.P., editors. Moskva. Geologiya i gorod [Moscow. Geology and the City]. Moscow, Moskovskie uchebniki i kartolitografiya Publ., 1997, 400 p.
  2. Platov N.A., Potapov A.D., Lavrova N.A., Potapov I.A., Kalashnikov M.A. Inzhenernogeologicheskie izyskaniya v slozhnykh usloviyakh [Geotechnical Investigations in Complicated Conditions]. Moscow, MGSU Publ, 2011, 130 p.
  3. Bryukhan' A.F., Bryukhan' F.F., Potapov A.D. Inzhenerno-ekologicheskie izyskaniya dlya stroitel'stva TES [Engineering and Ecological Studies for the Construction of Thermal Power Plants]. Moscow, ASV Publ., 2008, 193 p.
  4. Potapov A.D. Geotekhnika, est' li povod dlya diskussii [Geotechnics, is There a Reason for Debate]. Inzhenernaya geologiya [Engineering Geology]. 2009, no. 11, pp. 15—19.
  5. Kashperyuk P.I., Potapov A.D. Predmet geotekhniki — osnovaniya sooruzheniy?! [Is the Base of Structures the Subject of Geotechnics?!]. Inzhenernaya geologiya [Engineering Geology]. 2010, no. 1, pp. 12—15.
  6. Kalashnikov M.A., Kashperyuk P.I., Potapov I.A., Khomenko V.P., Potapov A.D. K voprosu o neobkhodimosti modernizatsii normativnykh dokumentov po inzhenerno-geologicheskim izyskaniyam v rayonakh rasprostraneniya karstovykh i suffozionnykh protsessov [On the Question of the Need of Normative Documents Modernization on Engineering and Geological Surveys in the Areas of Karst and Suffusion Processes]. Inzhenernye izyskaniya [Engineering Surveys]. 2010, no. 10, pp. 8—10.
  7. Ziangirov R.S., Potapov A.D. Eshche raz o pravil'nom ponimanii terminov «geotekhnika» i «inzhenerno-geotekhnicheskie izyskaniya» [Once More on the Correct Definition of the Terms "Geotechnics" and "Engineering and Geotechnical Surveys]. Inzhenernye izyskaniya [Engineering Surveys]. 2012, no. 9, pp. 9—12.

Download

TECHNIQUES FOR RECONSTRUCTION OF THE PRESERVED HOUSING STOCK

Vestnik MGSU 10/2017 Volume 12
  • Kustikova Yuliya Olegovna - Moscow State University of Civil Engineering (National Research University) Сandidate of Technical Sciences, Associate Professor of the Department of Housing and Communal Complex, Moscow State University of Civil Engineering (National Research University), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Matushkina Anastasiya Sergeevna - Moscow State University of Civil Engineering (National Research University) Magister, Department of Housing and Communal Complex, Moscow State University of Civil Engineering (National Research University), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.

Pages 1090-1097

Nowadays in Russian cities a significant part of the housing stock in areas of existing buildings has a high level of physical and moral deterioration, indicators of infrastructure elements do not meet the current and future requirements. Reconstruction of residential buildings is one of the important directions in solving the housing problem. This will allow us to not only extend the life cycle but also significantly improve the quality of housing, eliminate a communal settlement, provide the houses with modern engineering equipment, improve architectural expressiveness of buildings and increase their energy efficiency. For buildings of different construction periods an individual approach is required in the development of methods and technologies of reconstruction. At the same time, the process should take place not in a separate building but in a group of buildings, neighborhood or district. This makes it possible to undertake a comprehensive assessment of the urban development situation and make the most rational decisions to meet modern conditions, and provide logical connection between various architectural trends. At the same time, there are possibilities for compaction and decompaction of buildings, the rational use of inter-district, underground space and communication systems. Moscow region is a large region, which occupies an area of 46 thousand square kilometers. The region includes more than 38 municipalities (municipal districts, urban and rural settlements). The region’s population is more than 7 million people. Moscow oblast has a central location in the Russian Federation and a close relationship with the capital. This relationship with Moscow is manifested through common social, scientific, industrial, transport links, environmental protection problems, labor resources. In 2016 the total area of the housing stock in Moscow region was about 220 million sq. m. The total area of dilapidated and emergency housing stock is just over 2.5 million sq. m. In addition, a significant part of the housing stock needs major repair and reconstruction. In this regard, a priority when planning cities should be given to the renovation of buildings to create a safe and comfortable living environment. Subject: reconstruction of five-storey residential buildings of series 1-447 on the territory of Moscow region. Research objectives: development of volume-spatial techniques for reconstruction of five-storey residential buildings of series 1-447. Materials and methods: analysis of three most applicable options for reconstruction of buildings of the first mass series on the example of brick five-storey buildings of series 1-447. Results: for five-story brick residential buildings of series 1-447 we recommend volume-spatial reconstruction method with symmetric broadening of the building by 3 m and a superstructure up to 9 floors.

DOI: 10.22227/1997-0935.2017.10.1090-1097

Download

NEW INSTRUMENTS FOR MANAGEMENT OF CONSTRUCTION PROGRAMS AND PROJECTS IN THE NEW ECONOMY STRUCTURE

Vestnik MGSU 11/2017 Volume 12
  • Silka Dmitriy Nikolaevich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Economic Sciences, Associate Professor, Head of the Department of Economics and Management in Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Kozulin Sergey Valentinovich - Federal Treasury Department “Nalog-servis” of the Federal Tax Service in the Moscow oblast (“Nalog-servis”) Director of the Branch, Federal Treasury Department “Nalog-servis” of the Federal Tax Service in the Moscow oblast (“Nalog-servis”), domovl. 3, str.3, Pokhodnyy proezd, Moscow, 125373, Russian Federation.

Pages 1214-1220

Subject: the new economy structure is directly related to the active application of digital technologies. Economic processes are more formalized and for making administrative decisions it becomes possible to operate in a greater degree with precise criteria and information than probabilistic assumptions. As a subject of research, new tools for managing construction programs and projects are presented. Research objectives: the purpose of the study is to formulate general principles and directions for the digitization of economic relations in investment and construction activities to ensure the effectiveness of implementation of new generation projects. Materials and methods: to achieve the goal, the article shows the composition of state programs and projects in the construction sector and the system problems of their implementation. Organizational methods of increasing their effectiveness are considered. Results: the most promising areas of implementation of new management tools for investment and construction programs and projects are identified. Conclusions: the article shows the current dynamics of changes in technical and socio-economic systems at the level of construction sector. It is pointed out that the tasks of socio-economic nature require the development of unique approaches since the peculiarities of Russian legislation, of the prevailing norms and rules of economic activity prevent the direct replication of successful foreign experience.

DOI: 10.22227/1997-0935.2017.11.1214-1220

Download

MODELING TRENDS OF INVESTMENT AND CONSTRUCTION ACTIVITIES OF THE RUSSIAN FEDERATION

Vestnik MGSU 11/2017 Volume 12
  • Geraskina Inna Nikolaevna - Saint Petersburg State University of Architecture and Civil Engineering (SPSUACE) Candidate of Economic Sciences, Associate Professor, Head of the Department of Management Organization, Saint Petersburg State University of Architecture and Civil Engineering (SPSUACE), 4 2nd Krasnoarmeiskaya str., Saint-Petersburg, 190005, Russian Federation.
  • Zatonskiy Andrey Vladimirovich - Perm National Research Polytechnic University, Berezniki branch (BB PNRPU) Doctor of Technical Sciences, Professor, Head of Department of Automation of Technological Processes, Perm National Research Polytechnic University, Berezniki branch (BB PNRPU), 7 Telmana str., Berezniki, Perm oblast, 1618404.

Pages 1229-1239

Subject: the results of the study are particularly relevant in the modern system of cyclical crisis generated by the change of Kondratieff’s long waves of economic development and technological structures. From the point of view of synergetics, these processes have the ability to trigger a new order having spontaneous transformation due to endogenous factors. Qualitatively predictable fluctuations in the socio-economic environment and management may lead to self-organization and sustainable development of the economic system. Construction and investment activity of Russia in the majority of cases was investigated by economists without a detailed understanding of system characteristics, inherent properties and laws, which are identified from the results of economic-mathematical modeling. Research objectives: 1. Timely and qualitative prediction of moments of crisis in the investment and construction activities of Russia; 2. Modeling of management activities for the purpose of transitioning to the desired path of development of economic system; 3. Creation of a model that is simple enough for practical use by economists and the use of public data sets in it; studying influence of the bifurcation diagram at a certain time and bypassing the critical points of the system that lead to undesirable outcome. Materials and methods: approximation of the statistical data sets, regression analysis, phase analysis, differential modeling. Results: The authors developed a mathematical model that allows us to use statistical data on investment and construction activities and accurately forecast the chances of recession of the system, and also identify the sensitivity of order parameters to the dynamics of control variables, bifurcation states and behavior of the object under certain management conditions. Conclusions: the paper presents an approach to modeling and forecasting the trends of development of complex cyclic and stochastic subsystem of the national economy - investment and construction activities. We developed economic-mathematical model based on differential equation of the second order, allowing us to use statistical data and predict behavior of the system depending on management actions. We identified the dynamics of the impact of control variables on the order parameter of the economic system under study in various time periods. The obtained results should be used in strategic planning and management of innovative development of investment and construction activities of Russia.

DOI: 10.22227/1997-0935.2017.11.1229-1239

Download

THE IMPACT OF INFORMATION MODELLING TECHNOLOGY ON THE DEVELOPMENT OF INVESTMENT-CONSTRUCTION PROCESS

Vestnik MGSU 7/2018 Volume 13
  • Churbanov Aleksey Evgenievich - Saint Petersburg State University of Architecture and Civil Engineering (SPSUACE) Candidate of sciences (economy), Associate Professor, Chair of Economics of entrepreneurship and innovation, Saint Petersburg State University of Architecture and Civil Engineering (SPSUACE), 4 2nd Krasnoarmeyskaya st., Saint-Petersburg, 190005, Russian Federation.
  • Shamara Yury Alekseevich - Investment and Engineering Holding, Kubanskaya Oil and Gas Company Ltd. (“KNGK Group” Ltd.) Candidate of sciences (economy), First Vice-President, Investment and Engineering Holding, Investment and Engineering Holding, Kubanskaya Oil and Gas Company Ltd. (“KNGK Group” Ltd.), off. 500, 117/1 Budennogo st., Krasnodar, 350000, Russian Federation.

Pages 824-835

Subject: transformation of relations between participants of investment and construction process and their documentation due to accelerated introduction of BIM modeling technology and its spread to the full lifecycle of the construction object. Research objectives: study of the composition and structure of the unified digital environment formed on the basis of technological platform of information modeling in construction, and analysis of the current state of affairs in this area in the Russian Federation; research of directions and mechanisms of transformation of the investment and construction process in terms of two currently used models of implementation of investment and construction projects: disintegrated procurement and integrated procurement models. Materials and methods: systematic approach, statistical and comparative analysis and method of expert assessments were used. Results: we have established a three-component composition of a unified digital environment in construction, including technological platform based on BIM-modeling technology, and in relation to a specific object - its information model; information and analytical systems associated with the BIM-model and providing its information content and updating; banks of normative, technical and methodological documentation. The following directions of investment and construction process transformation are identified: • early involvement of the construction contractor in the project; • extended application of integrated engineering models; • strengthening the role of unified state customers in the construction system for state needs; • implementation of the mechanism of documented partnership between the participants of investment and construction projects. Conclusions: the main direction of development of the investment and construction process in the digital environment, formed on the BIM technology platform, is the formation of mechanisms for in-depth cooperation of participants of investment and construction projects at all stages of the object’s lifecycle on the basis of a wide application of integrated engineering contracts, centralization of management in the system of public procurement and development of partnership mechanisms on the basis of multilateral partnership agreements made by the participants of investment and construction projects. Implementation of these mechanisms will require the appropriate development of regulatory, technical and methodological bases, as well as amendments to existing legislation related to public-private partnerships and public procurement.

DOI: 10.22227/1997-0935.2018.7.824-835

Download

Efficiency analysis of technologies applied in the course of selecting approaches to organization of constructionoperations and renovation of pipelines

Vestnik MGSU 7/2013
  • Sapukhin Aleksandr Aleksandrovich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Associate Professor, Department of Hydraulics, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Kurochkina Valentina Aleksandrovna - 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation Candidate of Technical Sciences, Associate Professor, Department of Hydraulics and Water Resources, 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation, ; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Novikov Sergey Olegovich - Moscow State University of Civil Engineering (MGSU) student, Institute of Construction and Architecture, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 96-105

The authors consider particular methods, technologies and organizational aspects that may be implemented in the construction and renovation of pipelines using polythene materials instead of metals due to their economic and practical efficiency. It is noteworthy that the corrosion problem of steel pipelines is the phenomenon of metal destruction that reduces the throughput of pipelines and facilitates obstructions, juncture cleavages and water leaks as a result of reduction of service lives of pipelines. The authors analyzed the efficiency of polythene pipes from the viewpoint of hydraulic processes and the economic expediency; the authors identified that the polythene pipe’s throughput is 3 times as much as the one of steel pipes. Also, the authors determined the economic efficiency of polythene pipes: USD 0.5 million per 1 kilometer of pipeline.The authors take account of the technology-related aspect, as the water pipeline construction and reconstruction processes are limited by dense urban environments or due to the absence of overhaul factories in the close proximity to pipelines. Therefore, the results of the analysis evidence the efficiency of application of polythene in construction and reconstruction of pipeline engineering systems. It is highly resistant to abrasion and corrosion; it boosts the water flow velocity due to the low rough-ness of the internal surface; its service life is long enough, and its transportation is problem-free.

DOI: 10.22227/1997-0935.2013.7.96-105

References
  1. Kurochkina V.A. Vliyanie vozdukha v truboprovode na velichinu gidravlicheskogo udara [Influence of Air inside Pipelines onto Water Hammer Intensity]. Stroitel’stvo — formirovanie sredy zhiznedeyatel’nosti : Sb. trudov IV Mezhdunar. mezhvuz. nauch.-prakt. konf. molodykh uchenykh, aspirantov i doktorantov. [Construction – Formation of the Environment. Collected works of the 4th International inter-university science and practice conference of young researchers, postgraduates and doctoral students]. Moscow, 2001, pp. 84—88.
  2. Sapukhin A.A., Pavlov E.I., Gergalov L.A. Opredelenie raskhodov v vodootvodyashchikh kollektorakh, rabotayushchikh v napornom rezhime [Identification of Consumption Rates in Sewage Reservoirs Operating in the Pressure Mode]. Stroitel’nye materialy, izdeliya i santekhnika [Construction Materials, Products and Sanitary Engineering]. Kiev, Budivel’nik Publ., 1987, no. 10, pp. 35—42.
  3. Khachaturov A.K., Rubashov A.M. Vodno-khimicheskiy rezhim sovmestnoy raboty sistemy oborotnogo okhlazhdeniya TETs i teploseti [Water Chemistry Mode of Joint Operation of the System of Reverse Cooling of TPPs and Heating Networks]. Ochistka prirodnykh i stochnykh vod. Sb. nauch. tr. [Treatment of Natural and Sewage Water. Collection of research works]. Moscow, 2009, pp. 20—24.
  4. Frenkel’ N.Z. Gidravlika. Ch. 1 [Hydraulics. Part 1]. Moscow – Leningrad, Gosenergizdat Publ., 1956, pp. 210—239.
  5. Krzys B. White Paper on Rehabilitation of Waste Water Collection and Water Distribution Systems. EPA, 2009, no. 9, pp. 24. Available at: http://nepis.epa.gov. Date of access: 17.04.13.
  6. Ginzburg Ya.N., Leznov B.S. Sovremennye metody regulirovaniya rezhimov raboty sistem vodosnabzheniya krupnykh gorodov [Contemporary Methods of Regulation of Modes of Operation of Water Supply Systems of Major Cities]. Vodosnabzhenie i sanitarnaya tekhnika. Sb. [Water Supply and Sanitary Engineering. Collected Works]. Moscow, GOSINTI Publ., 1976, pp. 51—62.
  7. Agachev V.I., Vinogradov D.A. Sostoyanie i perspektivy bestransheynogo metoda vosstanovleniya sistem vodosnabzheniya i vodootvedeniya [State of and Prospects for the Trenchless Method of Restoration of Water Supply and Discharge Systems]. Vodosnabzhenie i sanitarnaya tekhnika [Water Supply and Sanitary Engineering]. 2003, no. 12, pp. 15—24.
  8. Kosygin A.B. Avariynyy remont vodoprovoda pri pomoshchi telerobotov [Emergency Repairs of Water Supply Pipelines Using Tele-operated Robots]. Vodosnabzhenie i sanitarnaya tekhnika [Water Supply and Sanitary Engineering]. 2000, no. 2, pp. 9—16.
  9. Khramenkov S.V. Tekhnologiya vosstanovleniya truboprovodov bestransheynymi metodami [Technology for Restoration of Pipelines Using Trenchless Methods]. Sb. statey i publikatsiy Moskovskogo Vodokanala [Collected articles and publications of Vodokanal - Moscow Water Services Company]. Moscow, 2004, pp. 236—251.
  10. Najafi M. Structural Evaluation of No-Dig Manhole Rehabilitation Technologies. Benjamin Media, 2013. Available at: http://www.trenchlessonline.com. Date of access: 17.04.13.

Download

DATA BANK ON ACTIVATION CHARACTERISTICS OF RADIATION SHIELDING CONCRETE OF NUCLEAR PLANTS

Vestnik MGSU 2/2018 Volume 13
  • Bylkin Boris Konstantinovich - National Research Centre "Kurchatov Institute" (NRC "Kurchatov Institute") Doctor of Technical Sciences, Professor, Leading Researcher, National Research Centre "Kurchatov Institute" (NRC "Kurchatov Institute"), 1 Akademika Kurchatova pl., Moscow, 123182, Russian Federation.
  • Engovatov Igor’ Anatol’yevich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Technical Sciences, Professor, Professor of Construction of Heat and Nuclear Power Facilities, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Kozhevnikov Aleksey Nikolayevich - Moscow State University of Civil Engineering (National Research University) (MGSU) Candidate of Technical Sciences, Associate Professor, Leading Researcher, Department of Construction of Thermal and Nuclear Power Facilities, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Sinyushin Dmitriy Konstantinovich - AO "State Specialized Design Institute" (AO "GSPI") Deputy Head of the Department, AO "State Specialized Design Institute" (AO "GSPI"), 4 Sharikopodshipnikovskaya str., Moscow, 115088, Russian Federation.

Pages 213-221

Subject: studies conducted in the Russian Federation and abroad have shown that the induced activity and activation characteristics of radiation shielding concretes are determined by chemical elements, concentration of which in the initial components can vary within the limits from several parts-per-thousand to percentages by mass. In turn, activated shielding structures are one of the sources of non-deactivated radioactive waste at the stage of decommissioning of nuclear plants. To reduce activity and volume of radioactive waste, the selection of compositions of shielding concretes for nuclear plants should take into account the content of activation-hazardous elements. Research objectives: the purpose of this study was to justify the necessity and possibility of creating a data bank on activation characteristics of structural and shielding materials for nuclear plants. Materials and methods: computational and experimental studies included the studies of a wide range of compositions of shielding concretes, activity and volumes of activated radioactive waste. Results: the most important chemical elements that determine the long-term induced activity of shielding concretes were identified based on the data of computational and experimental studies. The structure, content and information components of the database on activation characteristics of shielding concretes of nuclear plants were developed. Conclusions: we have justified the practical possibility of targeted selection of the least activated shielding concretes of nuclear plants at the stage of their design and construction as well as the possibility of modeling compositions of operating and decommissioned plants when performing predictive calculations of the activity of materials and volumes of radioactive waste.

DOI: 10.22227/1997-0935.2018.2.213-221

Download

Principles of managing ecologically safe architectural reconstruction of the territories affected by waste disposal of different genesis

Vestnik MGSU 7/2014
  • 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; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Vorontsov Evgeniy Anatol'evich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Associate Professor, Department of Engineering Geology and Geoecology, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Tupitsyna Ol'ga Vladimirovna - Samara State Technical University (SSTU) Candidate of Technical Sciences, Docent, Associate Professor, Department of Chemical Technologies and Industrial Ecology, Samara State Technical University (SSTU), 244 Molodogvardeiskay str., Samara, 443100, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Sukhonosova Anna Nikolaevna - Samara State Technical University (SSTU) Candidate of Technical Sciences, Senior Lecturer, Department of Chemical Technologies and Industrial Ecology, Samara State Technical University (SSTU), 244 Molodogvardeiskay str., Samara, 443100, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Savel'ev Aleksey Aleksandrovich - Samara State Technical University (SSTU) postgraduate student, Department of Chemical Technologies and Industrial Ecology, Samara State Technical University (SSTU), 244 Molodogvardeiskay str., Samara, 443100, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Grishin Boris Mikhaylovich - Penza State University of Architecture and Construction (PSUAC) Doctor of Technical Sciences, Professor, Chair, Department of Water Supply, Water Disposal and Hydrotechnics, Penza State University of Architecture and Construction (PSUAC), 28 Germana Titova str., Penza, 440028, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Chertes Konstantin L'vovich - Samara State Technical University (SSTU) Doctor of Technical Sciences, Professor, Department of Chemical Technologies and Industrial Ecology, Samara State Technical University (SSTU), 244 Molodogvardeiskay str., Samara, 443100, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 110-132

Russia as well as the majority of the countries of the world is a highly urbanized country (according to expert opinion 70 % of the country population are citizens). The situation is worsening by the fact that in Russia, as well as in the majority of European countries, USA and Canada, great territories not occupied with agriculture are almost fully littered with industrial and consumer waste - including from solid municipal waste to highly toxic and radioactive. Generally about 9 bln tones of waste are accumulated in Russia, which includes 1.5 bln tones of dangerous waste. Basing on the analysis of more than 100 waste disposal objects in Samara region the authors showed that within its boundaries 17 landfills are situated, which after deactivation are potentially suitable as donors of recultivation materials: secondary mineral soils and soil substitutes. Moreover the separate remediated territories of can serve as sets for constructing waste neutralization complexes. The ideas presented in this work were used for estimating the state and justifying the methods of landfill recultivation in Zhigulevsk (Samara region).

DOI: 10.22227/1997-0935.2014.7.110-132

References
  1. Vaysman Ya.I., Korotaev V.N., Petrov Yu.V. Poligony deponirovaniya tverdykh bytovykh otkhodov [Landfills of Municipal Solid Waste]. Perm, PGTU Publ., 2001, 150 p.
  2. Forcano E. La meva Barcelona. Barcelona — Madrid, lunwerg, 2010, 96 p.
  3. Abercrombie P. Town and Country Planning. Rev. by D. Rigby Childs. 3-d ed. NY, Oxford University Press, 1959 (Reprinted 1961 and 1967), 256 p.
  4. Vik E.A., Bardos P. Remediation of Contaminated Land Technology Implementation in Europe: A report from the Contaminated Land Rehabilitation Network for Environmental Technologies. CLARINET, 2002, 188 p. Available at: http://www.commonforum.eu/Documents/DOC/Clarinet/WG7_Final_Report.pdf\. Date of access 19.06.2014.
  5. Yazhlev I.K. Ekologicheskoe ozdorovlenie zagryaznennykh proizvodstvennykh i gorodskikh territoriy: monografiya [Ecological Remediation of the Polluted Industrial and Urban Territories. Monograph]. Moscow, ASV Publ., 2012, 272 p.
  6. Smetanin V.I. Rekul'tivatsiya i obustroystvo narushennykh zemel' [Recultivation and Development of Disordered Areas]. Moscow, Kolos Publ., 2000, 96 p.
  7. Telichenko V.I., Potapov A.D., Shcherbina E.V. Nadezhnoe i effektivnoe stroitel'stvo na tekhnogenno zagryaznennykh territoriyakh [Sustainable and Efficient Construction on Technogenic Polluted Territories]. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering]. 1997, no. 8, pp. 31—32.
  8. Shcherbina E.V. Ekologicheskaya bezopasnost' mest razmeshcheniya otkhodov s pozitsiy ustoychivosti geotekhnicheskikh sistem [Ecological Safety of Landfills in Terms of Stability of Geotechnical Systems]. Sovremennye metody proektirovaniya, tekhnicheskoy ekspluatatsii i rekonstruktsii zdaniy i sooruzheniy: sbornik trudov MGSU [Contemporary Methods of Design, Technical Operation and Reconstruction of Buildings and Structures: Collection of Works of MGSU]. Moscow, MGSU Publ., 2005, pp. 109—112.
  9. Shcherbina E.V., Alekseev A.A. Razrabotka effektivnykh prirodookhrannykh konstruktsiy i tekhnologiy na osnove geokompozitsionnykh sistem [Development of Efficient Environment-oriented Structures and Technologies Basing on Geocompositional Systems]. Nauchno-tekhnicheskie innovatsii v stroitel'stve: sbornik dokladov [Scientific and Technical Innovations in Construction: Collection of Papers]. Moscow, MGSU Publ., 2004, pp. 92—96.
  10. Potapov A.D., Pupyrev E.I., Potapov P.A. Metody lokalizatsii i obrabotki fil'trata poligonov zakhoroneniya tverdykh bytovykh otkhodov [Localization and Processing Methods for Filtrate of Municipal Solid Waste Landfills]. Moscow, ASV Publ., 2004, 167 p.
  11. Bin G., Parker P. Measuring Buildings for Sustainability: Comparing the Initial and Retrofit Ecological Foot-print of a Century Home — The REEP House. Applied Energy. 2012, vol. 93, pp. 24—32. DOI: http://dx.doi.org/10.1016/j.apenergy.2011.05.055.
  12. Fullana i Palmer P., Puig R., Bala A., Baquero G., Riba J., Raugei M. From Life Cycle Assessment to Life Cycle Management: A Case Study on Industrial Waste Management Policy Making. Journal of Industrial Ecology. 2011, vol. 15, no. 3, pp. 458—475. DOI: http://dx.doi.org/10.1111/j.1530-9290.2011.00338.x.
  13. Bykov D.E, Chertes K.L., Tupitsyna O.V. Rekul'tivatsiya massivov organo-mineral'nykh otkhodov [Recultivation of Organic Mineral Waste Soils]. Samara, SamGTU Publ., 2007, 118 p.
  14. Dudler I.V., Lyarskiy S.P., Vorontsov E.A., Shul'gin P.Yu. Kriterii neobkhodimosti, prioritety i printsipy predproektnykh inzhenerno-geologicheskikh izyskaniy [Necessity Criteria, Prioroties and Principles of Pre-design Engineering Geological Investigations]. Rol' inzhenernoy geologii i izyskaniy na predproektnykh etapakh stroitel'nogo osvoeniya territoriy: Sergeevskie chteniya [The Role of Engineering Geology and Investigations on Pre-Design Stages of Construction Development of the Territory: Sergeev Readings]. Moscow, RUDN Publ., 2012, no. 142, pp. 337—341.
  15. Vorontsov E.A. Sposob kolichestvennoy otsenki inzhenerno-geologicheskoy informatsii i primery ego ispol'zovaniya [Quantitive Estimation of Ehgineering Geological Information and Examples of its Use]. Denisovskie chteniya : sb. materialov [Denisov Readings: Collection of Works]. Moscow, MGSU Publ., 2000, vol. 1, pp. 94—105.
  16. Kostarev V.P., Vinogradova S.A. Klyuchevoy vopros sovremennykh inzhenerno-geologicheskikh izyskaniy [Key Aspect of Contemporary Engineering Geological Investigations]. Rol' inzhenernoy geologii i izyskaniy na predproektnykh etapakh stroitel'nogo osvoeniya territoriy: Sergeevskie chteniya [The Role of Engineering Geology and Investigations on Pre-Design Stages of Construction Development of the Territory: Sergeev Readings]. Moscow, RUDN Publ., 2012, no. 142, pp. 342—344.
  17. Senyushchenkova I.M., Novikova O.O. Geoekologicheskiy analiz geologicheskoy sredy neftezagryaznen-nykh territoriy ob"ektov zheleznykh dorog [Geoecological Analysis of Geoenvironment in Oil-contaminated Territories of Railway Objects]. Naukoviy v³snik NGU [Science Proceedings of Novosibirsk State University]. 2013, no. 6, pp. 98—104.
  18. Tupitsyna O.V., Chertes K.L., Mikhaylov E.V., Garnets N.A. Issledovanie massivov organomineral'nykh otkhodov pri vybore napravleniy ikh rekul'tivatsii [Investigation of Organo-Mineral Waste Soils in Case of Choosing their Recultivation Directions]. Problemy vyzhivaniya cheloveka v tekhnogennoy srede sovremennykh gorodov: sbornik trudov 21 Vserossiyskogo kongressa «Ekologiya i zdorov'e cheloveka» [Human Survival Problems in Anthropogenic Environment of Modern Cities: Collection of Works of the 21st All-Russian Congress “Ecology and Human Health”]. Samara, 2006, pp. 270—274.
  19. Tupitsyna O.V., Chertes K.L., Bykov D.E., Mikhaylov E.V. Geoekologicheskie napravleniya rekul'tivatsii neorganizovannykh ob"ektov razmeshcheniya organo-mineral'nykh otkhodov [Geoecological Directions of Recultivation of Unorganized Organo-Mineral Waste Landfill Objects]. VeystTek—2007: sbornik dokladov V Mezhdunarodnogo kongressa po upravleniyu otkhodami i prirodookhrannymi tekhnologiyami [VeystTek—2007: Collection of Works of the 5th International Congress on Waste Management and Environmental Technologies]. Moscow, 2007, pp. 173—175.
  20. Chertes K.L., Mikhaylov E.V., Tupitsyna O.V., Malinovskiy A.S. Utilizatsiya osadkov stochnykh vod na ob"ektakh razmeshcheniya otkhodov [Sewage Sludge Utilization on Landfill Facilities]. Ekologiya i promyshlennost' Rossii [Ecology and Industry of Russia]. 2008, no. 5, pp. 36—40.
  21. Tupitsyna O.V. Kompleksnaya geoekologicheskaya sistema issledovaniya i vosstanovleniya tekhnogenno narushennykh territoriy [Complex Geoecological System of Investigation and Remediation of Technogenic Disordered Territories]. Ekologiya i promyshlennost' Rossii [Ecology and Industry of Russia]. 2011, no. 3, pp. 35—38.

Download

IMPROVEMENT OF EFFICIENCY OF MANAGEMENT OF CONSTRUCTION WASTE THROUGH DEVELOPMENT OF INFORMATION SYSTEMS AND THE REGULATORY FRAMEWORK

Vestnik MGSU 1/2013
  • Aleksanin Aleksandr Vyacheslavovich - Moscow State University of Civil Engineering (MGSU) postgraduate student, Department of Technology, Organization and Management of Construction Processes, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Sborshchikov Sergey Borisovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Economic Sciences, Professor, acting chair, Department of Technology, Organization and Management in the Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 148-155

The relevance of the problem of construction waste management has proven to be true, as the statistical data reflect an increase in the amount of construction and demolition works in the Russian Federation. The authors analyze the current standards, regulatory documents and requirements applicable to construction waste processing. One of the most important challenges is a need to develop production schedules (PSs) applicable to the processes of management of construction and demolition waste. The process of coordination of PSs, their structure and contents is considered in the article in detail. There is a need for universal construction waste management software programmes. Development of these software programmes can promote essential results in projecting, modeling and research of the properties of waste management processes.

DOI: 10.22227/1997-0935.2013.1.148-155

References
  1. Official web site of the analytical centre for mortgage lending and securitization. Available at: http://www.rusipoteka.ru/lenta/market/rost-zhiliwnogo-stroitelstva/. Date of access: 05.08.12.
  2. Mortgage lending information resource. Available at: http://www.ipodom.ru/stream/realty/moscow/id_79634/. Date of access: 05.08.12.
  3. Oleynik S.P., Solomin I.A., Kharitonov S.E. Organizatsiya poligonov zakhoroneniya tverdykh bytovykh i stroitel'nykh otkhodov na osnove otrabotannykh kar'erov [Arrangement of Household and Construction Waste Disposal Sites at Exhausted Open-pit Mines]. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering]. 2007, no. 10, pp. 54—56.
  4. Oleynik S.P. O rezul'tatakh issledovaniya problemy upravleniya stroitel'nymi otkhodami [Findings of Research of the Problem of Management of Construction Waste]. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering]. 2007, no. 9, pp. 57—59.
  5. Oleynik S.P., Solomin I.A., Kharitonov S.E. Itogi pervogo etapa eksperimenta po elementnoy razborke tipovykh pyatietazhnykh zdaniy pervogo perioda industrial'nogo domostroeniya v Moskve [Results of the First Stage of the Experiment in Per-element Dismantling of Regular Five-storey Buildings of the First Period of Industrial Housing Construction]. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering]. 2007, no. 3, pp. 58—60.
  6. Aleksanin A.V., Sborshchikov S.B. Povyshenie konkurentosposobnosti predpriyatiy stroitel'noy otrasli za schet integratsii 3 R-kontseptsii upravleniya otkhodami stroitel'nogo proizvodstva i logisticheskikh metodov [Improvement of Competitive Strengths of Construction Companies Using the Integration of the 3 R-Concept of Management of Construction Waste Products]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 8, pp. 420—422
  7. Official site of Dokservis Centre for Environmental Safety. Available at: http://docservis.ru/technological-regulations. Date of access: 05.08.12.
  8. O poryadke obrashcheniya s otkhodami stroitel'stva i snosa v g. Moskve: postanovlenie pravitel'stva Moskvy ot 25 iyunya 2002 g. ¹ 469-PP (v red. ot 25.07.2006 ¹ 566-PP). [Moscow Governmental Regulation On the Procedure of Construction and Demolition Waste Management of June 25, 2002 no. 469-PP (amended on July 25, 2006 by Governmental Regulation no. 566-PP)].
  9. Tekhnologicheskiy reglament protsessa obrashcheniya s otkhodami stroitel'stva i snosa na ob"ekte: Inzhenernaya podgotovka territorii dlya stroitel'stva zhilogo doma s garazhom, rayon Severnoe Izmaylovo, kv. 49-50, korp. 3 (Shifr: 131-2010sn) [Procedure of processing of construction and demolition waste on sites. Site preparation for construction of a residential house and a garage in Severnoe Izmaylovo, block 49-50, Building 3 (reference number: 131-2010sn)].
  10. Aleksanin A.V., Sborshchikov S.B. Razrabotka metodiki effektivnogo upravleniya otkhodami stroitel'nogo proizvodstva [Development of Methodology of Effective Management of Construction Waste]. Ustoychivost', bezopasnost' i energoresursosberezhenie v sovremennykh arkhitekturnykh, konstruktivnykh, tekhnologicheskikh resheniyakh i inzhenernykh sistemakh zdaniy i sooruzheniy [Sustainability, Safety, Energy and Resources Saving in Advanced Architectural, Structural, Technical Solutions and Engineering Systems of Buildings and Structures]. Vserossiyskaya konferentsiya s elementami nauchnoy shkoly dlya molodezhi [2nd All-Russian conference with elements of a research school for young people]. Collected abstracts. Moscow, November 2, 2011, pp. 7—10.

Download

IMPROVEMENT OF EFFICIENCYOF ENVIRONMENTAL PROTECTION FROM CONSTRUCTION WASTE

Vestnik MGSU 4/2013
  • Belova Tat’yana Vladimirovna - Samara State University of Architecture and Civil Engineering (SGASU) postgraduate student, assistant lecturer, Department of Construction of Nature Protection and Hydraulic Engineering Facilities, Samara State University of Architecture and Civil Engineering (SGASU), 194 Molodogvardeyskaya St., Samara, 443001, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Bolotova Anna Aleksandrovna - Samara State University of Architecture and Civil Engineering (SGASU) postgraduate student, assistant lecturer, Department of Construction of Nature Protection and Hydraulic Engineering Facilities; +7 (846) 242-21-71., Samara State University of Architecture and Civil Engineering (SGASU), ; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 92-101

Environmental problems arising during construction and restructuring of buildings and structures in urban areas are considered in the article. A brief analysis of the knowhow used in the course of construction and restructuring of new and old construction facilities shows that the construction works that are most hazardous to the environment consist in demolition of buildings or their parts using the explosive method of demolition and stone dressing using high-speed cutting and grinding machines. These types of work generate a lot of construction waste and dust harmful for the environment. Despite any scheduled environmental protection actions, construction wastes pollute each component of the environment to a different extent. Environmental protection is a complex problem of vital importance, and the international community must concentrate its efforts to tackle it as soon as possible.Analysis of unauthorized landfills and methods of urban waste management help local communities to develop and implement methods of environmental protection.New effective know-hows are employed to reduce the impact of soil pollutants and to prevent further pollution of urban ponds in the course of construction works within urban areas. Advanced patented methodologies have been developed at Samara State University of Architecture and Civil Engineering. They include the use of quick-setting substances capable of generating impervious elements. Implementation of these methods will reduce pollution of urban areas, their atmosphere, ground waters and ponds.The authors also describe particular aspects of the impact produced by the mining industry on the environment. Values of river water quality indices have been studied, and new effective actions aimed at protection of ponds from pollution are proposed. The actions prevent access of pollutants to the pond.

DOI: 10.22227/1997-0935.2013.4.92-101

References
  1. Bal’zannikov M.I., Vavilova T.Ya. Okhrana okruzhayushchey sredy. Ustoychivoe razvitie. Bezopasnost’ zhiznedeyatel’nosti: Terminologicheskiy slovar’. [Environmental Protection. Sustainable Development. Life Safety. Dictionary of Terms.] Samara, SGASU Publ., 2005, 288 p.
  2. Shabanov V.A., Galitskova Yu.M., Bal’zannikov M.I. Vliyanie neobustroennykh gorodskikh svalok na okruzhayushchuyu sredu [Influence of Unattended Urban Landfills on the Environment]. Ekologiya i promyshlennost’ Rossii [Ecology and Industry of Russia]. 2009, no. 4, pp. 38—41.
  3. Galitskova Yu.M. Zashchita pochvy i gruntov gorodskikh territoriy ot vozdeystviya neobustroennykh svalok [Protection of Urban Soils and Grounds from the Impact of Unattended Landfills]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 1, pp. 100—104.
  4. Telichenko V.I., Galitskova Yu.M. Snizhenie vozdeystviya neobustroennykh svalok v usloviyakh gorodskikh territoriy [Reduction of the Impact of Unattended Landfills in the Urban Environment]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 4, pp. 191—196.
  5. Bal’zannikov M.I., Petrov V.P. Ekologicheskie aspekty proizvodstva stroitel’nykh materialov iz otkhodov promyshlennosti [Ecological Aspects of Production of Construction Materials from Industrial Waste]. Sovremennoe sostoyanie i perspektiva razvitiya stroitel’nogo materialovedeniya. Vos’mye akademicheskie chteniya otdeleniya stroitel’nykh nauk RAASN. [The State of and Prospects for Development of the Construction Material Science. 8th Academic Readings, Section of Construction Sciences, RAACS]. Samara, SGASU Publ., 2004, pp. 47—50.
  6. Bal’zannikov M.I., Lukenyuk E.V. Primenenie interpolyatsionnykh i ekstrapolyatsionnykh modeley v upravlenii kachestvom okruzhayushchey sredy [Using Interpolational and Extrapolational Models in Environmental Quality Management]. Ekologiya i promyshlennost’ Rossii [Ecology and Industry of Russia]. 2007, no 7, pp. 38—41.
  7. Bal’zannikov M.I., Lukenyuk E.V. Ispol’zovanie geoinformatsionnoy sistemy operativnogo ekologicheskogo monitoringa dlya upravleniya kachestvom okruzhayushchey sredy [Using Geoinformational System of Operative Ecological Monitoring to Manage the Quality of the Environment]. Ekologicheskie sistemy i pribory [Ecological Systems and Devices]. 2008, no. 2, pp. 3—5.
  8. Bal’zannikov M.I., Lukenyuk E.V., Lukenyuk A.I. Ekologicheskaya sistema sbora informatsii o sostoyanii regiona. Patent RF 70026. [Ecological System of Collection of Information about the Condition of the Region. RF Patent 70026.] 2008, Bulletin 1.
  9. Bal’zannikov M.I., Kleymenova E.F., Tiranin V.E. Sistema sbora informatsii. Patent RF na poleznuyu model’ 117688. [Information Collection System. RF Patent Protecting Utility Model 117688]. 2012, Bulletin 18.
  10. Bal’zannikov M.I., Galitskova Yu.M. Problemy ekologii vodnykh ob”ektov, vzaimodeystvuyushchikh s krupnym gorodom [Problems of Ecology of Aquatic Bodies Interacting with Major Cities]. Ekologiya i bezopasnost’ zhiznedeyatel’nosti. Sb. materialov Mezhdunar. nauch.-praktich. konf. [Ecology and Life Safety. Collected works of International Scientific and Practical Conference]. Penza, PDZ Publ., 2002, pp. 210—213.
  11. Belozerova R.Kh., Shabanova A.V. Ekologo-analiticheskaya otsenka sostoyaniya gorodskikh vodoemov g. Samary [Eco-analytical Assessment of the Condition of Urban Aquatic Bodies in Samara]. Izvestiya vuzov. Prikladnaya khimiya i biotekhnologiya. [News of Institutions of Higher Education. Applied Chmestry and Biotechnology]. 2011, vol. 1, no. 1, pp. 137—141.
  12. Belozerova R.Kh., Shabanova A.V. Razrabotka metodiki otsenki i sravneniya urovnya zagryaznennosti gorodskikh vodoemov s ispol’zovaniem shkaly Kharringtona [Development of Methodology for Assessment and Comparison of Pollution of Urban Aquatic Bodies Using Harrington Scale]. Izvestiya vuzov. Prikladnaya khimiya i biotekhnologiya. [News of Institutions of Higher Education. Applied Chmestry and Biotechnology]. 2011, vol. 1, no. 1, pp. 142—144.
  13. Bal’zannikov M.I., Vyshkin E.G. Hydroelectric Power Plants Reservoirs and Their Impact on the Environment. Environment. Technology. Resources. Proceedings of the 8th International Scientific and Practical Conference. Rezeknes Augstskova, Rezekne, RA Izdevnieciba. 2011, vol. 1, pp. 171—174.
  14. Bal’zannikov M.I., Zakharov D.G. Sposob zashchity okruzhayushchey sredy. Patent RF 2369706. [Environmental Protection Method. RF Patent 2369706.] 2009, Bulletin 28.
  15. Bal’zannikov M.I., Zakharov D.G., Ivanova S.B. Sposob zashchity okruzhayushchey sredy. Patent 2411334. [Environmental Protection Method. RF Patent 2411334.] 2011, Bulletin 4.
  16. Bal’zannikov M.I., Galitskova Yu.M. Sposob zashchity okruzhayushchey sredy ot zagryazneniya bytovymi i promyshlennymi otkhodami. Patent RF 2294245. [Method of Environmental Protection from Household and Industrial Waste. RF Patent 2294245.] 2007, Bulletin 6.
  17. Bal’zannikov M.I., Galitskova Yu.M. Sposob zashchity okruzhayushchey sredy ot zagryazneniya bytovymi otkhodami. Patent RF 2372154. [Method of Environmental Protection from Household Waste. RF Patent 2372154]. 2009, Bulletin 31.
  18. Bal’zannikov M.I., Bolotova A.A. Sposob zashchity vodoema ot zagryazneniya. Patent RF 2392375. [Method of Protection of Aquatic Bodies from Pollution. RF Patent 2392375.]. 2010, Bulletin 17.
  19. Bal’zannikov M.I., Bolotova A.A. Sposob zashchity vodoema ot zagryazneniya. Patent RF 2441963. [Method of Protection of Aquatic Bodies from Pollution. RF Patent 2441963.] 2012, Bulletin 4.
  20. Shabanov V.A., Bal’zannikov M.I., Mikhasek A.A. Sposob vozvedeniya plotiny. Patent RF 2330140. [Dam Construction Method. RF Patent 2330140.] 2008, Bulletin 21.
  21. Bal’zannikov M.I., Mikhasek A.A. Primenenie bystrotverdeyushchikh veshchestv dlya formirovaniya protivofil’tratsionnykh elementov v plotinakh iz kamennykh materialov [Using Quick-setting Substances to Produce Anti-filtering Elements of Masonry Dams]. Inzhenernostroitel’nyy zhurnal [Journal of Civil Engineering]. 2012, no. 3, pp. 48—53.
  22. Bal’zannikov M.I., Shabanov V.A., Galitskova Yu.M. Sposob zashchity beregovogo otkosa ot razrusheniya. Patent RF 2237129. [Method of Protection of Bank Slopes from Destruction. RF Patent 2237129.] 2004, Bulletin 27.
  23. Bal’zannikov M.I., Galitskova Yu.M. Zashchita beregovykh sklonov ot razrusheniya [Protection of Bank Slopes from Destruction]. Ekobaltika 2006. Sb. trudov VI Mezhdunar. Molodezhnogo ekologicheskogo foruma stran Baltiyskogo regiona. [Ecobaltika 2006. Collected works of the 4th International Ecological Forum of the Youth of the Baltic Region]. St.Petersburg, SPbGPU Publ., 2006, pp. 58—60.
  24. Shabanov V.A., Akhmedova E.A., Bal’zannikov M.I. Kontseptsiya razvitiya beregovoy linii reki v predelakh krupnogo goroda [River Bank Line Development Concept within a Major City]. Vestnik Volzhskogo regional’nogo otdeleniya Rossiyskoy akademii arkhitektury i stroitel’nykh nauk [Proceedings of Volzhskiy Regional Section of the Russian Academy of Architecture and Construction Sciences]. Nizhny Novgorod, NNGASU Publ., 2004, no. 7, pp. 27—31.

Download

PARTICULAR PROBLEMSOF RADIATION CONTROL IN THE COURSE OF CONSTRUCTIONOPERATIONS

Vestnik MGSU 8/2013
  • Kulieva Gul'nara Aleksandrovna - Peoples’ Friendship University of Russia (RUDN) Candidate of Biological Sciences, Associate Professor, Associate Professor, Department of Forensic Ecology, Faculty of Ecology, Peoples’ Friendship University of Russia (RUDN), 8/5 Podolskoe Shosse, Moscow, 113093, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Glebov Viktor Vasil`evich - Peoples’ Friendship University of Russia (RUDN) Candidate of Psychological Sciences, doctoral student, Associate Professor, Associate Professor, Department of Human Ecology, Faculty of Ecology, Peoples’ Friendship University of Russia (RUDN), 8/5 Podolskoe Shosse, Moscow, 113093, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 104-110

The authors consider several problems of radiation control in the process of construction operations. The authors describe sampling of radon, a radioactive gas which can be often found in the environment, and therefore, it may be the reason for cancer diseases. Residential houses represent the main source of ionizing radiation, given the fact that the time spent at home accounts for about 60% of the overall radiation exposure. Safe radon content values for residential and office buildings are provided in the article. Maximal acceptable doses of radiation, emitted by natural sources, in respect of office personnel (below 5 mSv per year) and residents (below 1 mSv per year) are identified. Maximal acceptable doses are regulated by the Russian Standard of Radiation Safety.Difficulties accompanying radiation control in the course of construction operations are described in the article. Field measurements of radon emissions from the soil surface have been taken in Russia for over 10 years; no other country has taken any measurements of this kind.The highest efficiency of radon protection is achieved at the stage of design of buildings. If regulatory requirements are honoured at the design stage, radiation protection turns a lot cheaper than elimination of high concentrations of radon inside existing buildings.

DOI: 10.22227/1997-0935.2013.8.104-110

References
  1. Utkin V.I. Gazovoe dykhanie zemli [Gas-filled Breath of the Earth]. Sorosovskiy obrazovatel'nyy zhurnal [Soros’ Educational Journal]. 1997, vol. 1, no. 1, pp. 57—64.
  2. Tsapalov A.A., Kuvshinnikov S.I. Zavisimost' ob"emnoy aktivnosti radona v pomeshcheniyakh ot raznosti vnutrenney i naruzhnoy temperatur vozdukha [Dependence of On-premises Radon Volume Activity on Difference between the Inside and the Outside Air Temperature]. Apparatura i novosti radiatsionnykh izmereniy (ANRI) [Equipment and News of Radiation Metering]. 2008, no.2, pp. 37—43.
  3. Radiatsiya: dozy, effekty, risk [Radiation: Doses, Effects, Risk.] Moscow, Mir Publ., 1998.
  4. Krewski D. Residential Radon and Risk of Lung Cancer: a Combined Analysis of 7 North American Case-Control Studies. Epidemiology. 2005, no. 16, pp. 137—145.
  5. Tsapalov A.A. Otsenka srednegodovogo urovnya EROA radona v pomeshcheniyakh na osnove rezul'tatov kratkosrochnykh izmereniy radiometrom «Al'faAERO» [Assessment of Average Indoor Annual Level of Radon Based on Results of Short-term Measurements Taken by AlfaAERO Radiometer]. Apparatura i novosti radiatsionnykh izmereniy (ANRI) [Equipment and News of Radiation Metering]. 2008, no.3, pp. 49—58.
  6. Gulabyants L.A. Printsip postroeniya novykh norm proektirovaniya protivoradonovoy zashchity zdaniy [Principle of Development of New Standards of Design of Radon Protection of Buildings]. Academia. Arkhitektura i stroitel'stvo [Academy. Architecture and Civil Engineering]. 2009, no. 5, NIISF RAASN Publ., pp. 461—467.
  7. Nazirov R.A., Peresypkin E.V., Tarasov I.V., Vereshchagin V.I. Snizhenie estestvennoy radioaktivnosti tsementnykh betonov [Reduction of Natural Radioactivity of Cement Concretes]. Izvestiya vuzov. Stroitel'stvo. [New of Institutions of Higher Education. Construction.] Novosibirsk, NGASU Publ., 2007, no.7, pp. 45—49.
  8. Radiatsionnyy kontrol' [Radiation Control]. Available at: http://glossary.ibrae.ac.ru/index. Date of access: 17.05.13.
  9. Vlasov A.D., Murin B.P. Edinitsy fizicheskikh velichin v nauke i tekhnike [Units of Values of Physics in Science and Technology]. Moscow, EAI Publ., 1990, pp. 63—64.
  10. William C. Graustein Karl K. Turekian. Radon Fluxes from Soils to the Atmosphere Measured by 210Pb–226Ra Disequilibrium in Soils. Geophysical Research Letters. May 1990, vol. 17, no. 6, pp. 841—844.
  11. Parovik R.I. Model' nestatsionarnoy diffuzii - advektsii radona v sisteme grunt — atmosfera [Model of Non-stationary Diffusion - Advection of Radon in the Soil – Atmosphere System]. Vestnik KRAUNTs. Fiziko-matematicheskie nauki [KRAUNTs Proceedings of Kamchatka Regional Association Centre for Education and Research. Physical and Mathematical Sciences.] 2010, no. 1, pp. 39—45.
  12. A Citizen's Guide to Radon: The Guide to Protecting Yourself and Your Family From Radon. U.S. Environmental Protection Agency, 2009. Available at: http://www.epa.gov/radon/pdfs/citizensguide.pdf. Date of access: 17.05.2013.
  13. Consumer's Guide to Radon Reduction. U.S. Environmental Protection Agency, 2010. Available at: http://www.epa.gov/radon/pdfs/consguid.pdf. Date of access: 17.05.2013.
  14. Miles J., Howarth, C.B. 2000. Validation Scheme for Laboratories Making Measurements of Radon in Dwellings. NRPB-M1140 National Radiological Protection Board, Chilton, Didcot, Oxfordshire.
  15. Synnott, H., Fenton D. 2005. An Evaluation of Radon Mapping Techniques in Europe. Project deliverable for the European Radon Research and Industry Collaboration Concerted Action project. Contract no: FIRI-CT-2001-20412 of the European Commission’s 6th Framework Programme. Available at: www.rpii.ie/reports. Date of access: 17.05.2013.

Download

STATE POLICY FUNDAMENTALS IN FORMATION OF A NATIONAL STANDARD OF "GREEN CONSTRUCTION" FOR ASSESSMENT OF ITEMS OF REAL PROPERTY

Vestnik MGSU 12/2012
  • Kolchigin Mikhail Aleksandrovich - Moscow State University of Civil Engineering (MGSU) assistant lecturer, Department of Construction of Thermal and Nuclear Power Plants, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Benuzh Andrey Aleksandrovich - Moscow State University of Civil Engineering (MGSU) engineer, Department of Construction of Thermal and Nuclear Power Plants, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 177 - 181

The authors analyze the problem of implementation of principles of "green construction" in the Russian Federation. Despite the availability of the appropriate legislation in the field of environmental safety of construction, there are no legal, social, or economic incentives that may boost development of "green" technologies.
Until recently, fundamentals of the state policy in the field of environmental protection of real estate development have not succeeded in motivating market players to implement advanced green technologies.
However, recently, the government has begun motivating the construction industry towards the use of "green" technologies. The first activity is aimed at improving the legislation and updating the international voluntary certification according to BREAM and LEED standards.
The result is the acceptance of the National Green Building Standard for real estate valuation that will open up new opportunities and prospects to the participants of the construction market. However, at the initial phase of implementation of "Fundamentals of the State Policy in the Field of Environmental Development of the Russian Federation", government authorities should provide their support to proponents of green buildings, including financial inflows.

DOI: 10.22227/1997-0935.2012.12.177 - 181

References
  1. Obrashchenie Moskovskoy gorodskoy dumy ot 21.02.2007 ¹ 5 «O prinyatii mer po prekrashcheniyu nezakonnoy gradostroitel’noy deyatel’nosti na territoriyakh Balashikhinskogo rayona, granichashchikh s natsional’nym parkom «Losinyy ostrov» [Address of Moscow City Duma no. 5 of 21.02.2007 «Actions Banning any Illegal Urban Development Activities in Balashikha District Area Bordering “Losinyy Ostrov” National Park].
  2. Kholopova E.N., Zakharova V.A. Ekologicheskaya ekspertiza: teoriya i praktika pravoprimeneniya [Environmental Review: Theory and Practice of Law Enforcement]. Ekspert kriminalist [Forensic Expert]. 2010, no. 2, pp. 28—32.
  3. Veklenko V.V., Popov I.V. Mesto ugolovnoy otvetstvennosti v sisteme yuridicheskoy otvetstvennosti, vozlagaemoy za ekologicheskie pravonarusheniya [Position of the Criminal Liability in the System of Legal Responsibility Imposed for Environmental Offenses]. Rossiyskiy sledovatel’ [Russian Investigator]. 2007, no. 24, pp. 2—9.
  4. Braun V.K., Polyakov A.N. Ekologicheskaya premiya zastroyshchika [Environmental Bonus for Builders]. Rukovoditel’ stroitel’noy organizatsii [Construction Company Executive]. 2011, no. 1, pp. 14—20.
  5. Telichenko V.I., Potapov A.D., Slesarev M.Yu., Shcherbina E.V. Ekologicheskaya bezopasnost’ stroitel’stva [Environmental Safety of Construction]. Moscow, Arkhitektura-S Publ., 2009, 311 p.
  6. Matiyashchuk S.V. Kommentariy k Federal’nomu zakonu ot 23 noyabrya 2009 g. ¹ 261-FZ «Ob energosberezhenii i o povyshenii energeticheskoy effektivnosti i o vnesenii izmeneniy v otdel’nye zakonodatel’nye akty Rossiyskoy Federatsii» (postateynyy) [Commentary on the Federal Law no. 261-FZ of November 23, 2009 “On Energy Saving and Improvement of Energy Efficiency and on Amendments to Certain Legislative Acts of the Russian Federation” (itemized)]. Moscow, Yustitsinform Publ., 2010, 208 p.
  7. Bol’sherotov A.L. Sistemy otsenki ekologicheskoy bezopasnosti stroitel’stva [Systems of Evaluation of Environmentally Safe Construction]. Moscow, ASV Publ., 2010, 216 p.
  8. Donovan F. Our Uncertain Future: Can Good Planning Create Sustainable Communities? University of Illinois, 2009, pp. 3—7.
  9. Paul F. Downtown Ecopolis: Architecture and Cities for a Changing Climate. Springer, New York, 2009, 628 p.

Download

JUSTIFICATION OF THE MAIN PARAMETERS FOR HPP’S SUCTION PIPES

Vestnik MGSU 9/2015
  • Bal’zannikov Mikhail Ivanovich - Samara State University of Architecture and Civil Engineering (SSUACE) Doctor of Technical Sciences, Professor, Department of Environment Protective and Hydrotechnical Construction, Samara State University of Architecture and Civil Engineering (SSUACE), 194 Molodogvardeyskaya str., Samara, 443001, Russian Federation.

Pages 111-121

Hydraulic turbine suction pipes at hydropower plants (HPPs) play an important role for providing high power indices of HPP operation. At the same time for channel type HPPs with vertical reactive hydraulic turbines curved large size suction tubes are used and this leads to great costs for their installation. That is why the significance of economic analysis for justification of the size of such suction pipes is underlined. Minimally possible sizes of curved pipes (height and length) are determined by hydraulic turbine normal operation requirements and are given in reference books. Nevertheless often such conditions arise when the correction of their size leading to their enlargement becomes inevitable. In particular, when there are rocks at a small depth below of the project position of the foundation slab it is feasible to increase a suction pipe’s height to place the foundation concrete on the strong rock. Or if it is necessary to make a motorway at the downstream side of a channel HPP lengthening of a suction pipe appears sensible. In such cases economic calculations are necessary on feasibility of suction pipe size change proposals. The use of an integral effect technique for such an analysis is proposed. The article provides a criterion for economic efficiency of the given technique. In conformity with it the calculations for a hydraulic turbine with 9 m diameter under acting head of 24 m are made. The calculation results are presented as graphs of dependencies of integral effect on varying parameters. The analysis of the results shows that a parameter being changed (suction pipe lengthening) has a distinct optimal value, which in the investigated variants is 2.5...3.0 m. Herewith a maximal value of economically justified hydrogenerator suction pipe lengthening satisfying the criterion adopted is in the range of 7.5...8.0 m. It is also shown that the value of the integral effect depends significantly on electric energy tariffs and the conditions of HPP operation.

DOI: 10.22227/1997-0935.2015.9.111-121

References
  1. Elistratov V.V. Vozobnovlyaemaya energetika [Renewable Power Engineering]. 2nd edition, revised. Saint Petersburg, Nauka Publ., 2013, 308 p. (In Russian)
  2. Elistratov V.V. Ispol’zovanie vozobnovlyaemykh istochnikov energii — put’ k ustoychivomu razvitiyu i energoeffektivnosti [Use of Renewable Energy Sources Is a Way to Sustainable Development and Energy Efficiency]. Nauchno-tekhnicheskie vedomosti SPbGPU [St. Petersburg State Polytechnical University Journal]. 2012, no. 3 (154), pp. 77—83. (In Russian)
  3. Svitala F., Evdokimov S.V., Galitskova Yu.M. Osobennosti konstruktsiy gidrotekhnicheskikh sooruzheniy i agregatnykh zdaniy pervykh gidroelektrostantsiy [Structural Peculiarities of Hydrotechnical Structures and Aggregate Buildings of First Power Plants]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2014, no. 12, pp. 87—90. (In Russian)
  4. Svitala F., Galitskova Yu.M. Ispol’zovanie gidravlicheskikh energoagregatov s naklonnoy os’yu dlya malykh gidroelektrostantsiy [Use of Hydraulic Energy Installations with Inclined Axis at Small HPPs]. Nauchnoe obozrenie [Scientific Review]. 2014, no. 10 (2), pp. 450—456. (In Russian)
  5. Bal’zannikov M.I., Evdokimov S.V., Galitskova Yu.M. Razvitie vozobnovlyaemoy energetiki — vazhnyy vklad v obespechenie zashchity okruzhayushchey sredy [Development of Renewable Energy Engineering as a Significant Contribution to Providing Environmental Protection]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2014, no. 3, pp. 16—19. (In Russian)
  6. Evdokimov S.V., Dormidontova T.V. Otsenka nadezhnosti gidrotekhnicheskikh sooruzheniy [Hydrotechnical Structures’ Reliability Estimation]. Vestnik SGASU. Gradostroitel’stvo i arkhitektura [Vestnik of SSUACE. Town Planning and Architecture]. 2012, no. 1 (5), pp. 64—68. (In Russian)
  7. Evdokimov S.V. Problemy bezopasnosti stroitel’stva energeticheskikh ustanovok, akkumuliruyushchikh netraditsionnye (vozobnovlyaemye) istochniki energii [Problems of Construction Safety for Power Installations Accumulating Non-Traditional (Renewable) Energy Sources]. Vestnik SGASU. Gradostroitel’stvo i arkhitektura [Vestnik of SSUACE. Town Planning and Architecture]. 2012, no. 2 (6), pp. 68—74. (In Russian)
  8. Piyavskiy S.A., Evdokimov S.V. Obosnovanie konstruktsiy vodopropusknykh gidrotekhnicheskikh sooruzheniy v usloviyakh neopredelennosti [Reasoning for Design of Culvert Hydrotechnical Structures under Uncertainty Conditions]. Izvestiya vysshikh uchebnykh zavedeniy. Stroitel’stvo [News of Higher Educational Institutions. Construction]. 2012, no. 6 (643), pp. 36—42. (In Russian)
  9. Bal’zannikov M.I., Evdokimov S.V., Shekhova N.V. Ekologo-ekonomicheskoe obosnovanie effektivnosti gidroakkumuliruyushchikh i vetrovykh elektrostantsiy [Ecological and Economic Evaluation of the Effectiveness of Pumped Storage and Wind Power Plants]. Ekonomika i upravlenie sobstvennost’yu [Economy and Property Management]. 2015, no. 1, pp. 68—72. (In Russian)
  10. Bal’zannikov M.I. Obosnovanie ustanovlennoy moshchnosti GES energeticheskogo gidrouzla [Justification of a HPP’s Set Capacity at Power Waterworks]. Izvestiya vysshikh uchebnykh zavedeniy. Stroitel’stvo [News of Higher Educational Institutions. Construction]. 2014, no. 8 (668), pp. 32—40. (In Russian)
  11. Bal’zannikov M.I., Seliverstov V.A. Characteristics of Substantiation of Water-Intake Parameters at WSPP as Component Parts of the Power Complex. Power Technology and Engineering. 2015, vol. 49, no. 1, pp. 22—26. DOI: http://dx.doi.org/10.1007/s10749-015-0567-5.
  12. Urishev B.U., Mukhammadiev M.M., Nosirov F., Zhuraev S.R. Snizhenie zaileniya avankamery meliorativnykh nasosnykh stantsiy [Reduction of Forebays Siltation at Ameliorative Pump Stations]. Vestnik SGASU. Gradostroitel’stvo i arkhitektura [Vestnik of SSUACE. Town Planning and Architecture]. 2013, no. 4 (12), pp. 49—53. (In Russian)
  13. Bal’zannikov M.I., Elistratov V.V. Rezul’taty energogidravlicheskikh issledovaniy pryamotochnogo vodovypuska krupnoy nasosnoy stantsii [Results of Power Hydraulic Investigations of Straight-Through Output of a Large Pump Plant]. Gidrotekhnicheskoe stroitel’stvo [Hydrotechnical Construction]. 1994, no. 12, pp. 19—22. (In Russian)
  14. Vasil’ev Yu.S., Kubyshkin L.I. O tekhnologii proektirovaniya ob
  15. Mikhaylov I.E. Spiral’nye kamery obratimykh gidromashin i tsentrobezhnykh nasosov [Spiral Chambers of Combined Pump-Turbine Units and Centrifugal Pumps]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 2, pp. 112—116. (In Russian)
  16. Bal’zannikov M.I., Seliverstov V.A. Osobennosti vybora osnovnykh parametrov konstruktsii vodovypusknogo sooruzheniya sektsionnogo tipa krupnoy nasosnoy stantsii [Peculiarities of Main Design Parameters Selection for Section-Type Water Output Structure of a Large Pump Plant]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2010, no. 8, pp. 17—19. (In Russian)
  17. Elistratov V.V., Konishchev M.A., Davydov K.I. Laboratornye energeticheskie issledovaniya nizkonapornogo bloka mikro-GES [Laboratory Power Investigations of a Micro HPP Low Pressure Block]. Nauchno-tekhnicheskie vedomosti SPbGPU [St. Petersburg State Polytechnical University Journal]. 2012, no. 154—2, pp. 189—194. (In Russian)
  18. Bakhtina I.A., Ivanov V.M., Il’inykh S.V., Stepanova P.V., Elizarov E.S. Eksperimental’nye issledovaniya mikro-GES s osevoy gidroturbinoy na gidravlicheskom stende [Experimental Tests of Micro-HPP with Axial Hydroturbine at the Hydraulic Stand]. Polzunovskiy vestnik [Polzunovsky Vestnik]. 2013, no. 4—2, pp. 12—19. (In Russian)
  19. Ivanov V.M., Bakhtina I.A., Ivanova T.Yu., Il’inykh S.V. Elektrosnabzhenie i energosberezhenie s ispol’zovaniem vozobnovlyaemykh istochnikov energii energii [Electric Power Supply and Energy Saving When Using Renewable Energy Sources]. Vestnik SGASU. Gradostroitel’stvo i arkhitektura [Vestnik of SSUACE. Town Planning and Architecture]. 2015, no. 2 (19), pp. 88—93. (In Russian)
  20. Ivanov V.M., Ivanova T.Yu., Stoyan I.A., Pchelintsev S.G. Osevaya gidroturbina novoy konstruktsii i stend dlya modelirovaniya protochnykh chastey gidroturbin [Axial Hydro Turbine of a New Design and a Stand for Flow-Through Hydro Turbine Parts Simulation]. Vestnik Severo-Kavkazskogo federal’nogo universiteta [Herald of North-Caucasus Federal University]. 2011, no. 4, pp. 102—106. (In Russian)
  21. Krivchenko G.I. Gidravlicheskie mashiny: turbiny i nasosy [Hydraulic Machines: Turbines and Pumps]. Moscow, Energatomizdat Publ., 1983, 320 p. (In Russian)
  22. Balzannikov M.I. The Use of Low-Head Waterpower Developments in Making Cargo Passages through Lowland Rivers. Procedia Engineering. 2015, no. 111, pp. 65—71. DOI: http://dx.doi.org/10.1016/j.proeng.2015.07.040.
  23. Timofeev V. Cheboksarskaya GES [HPP in Cheboksary]. AirFotoVideo.ru. Available at: http://www.airfotovideo.ru/photos/photo434/byuser36.html. Date of access: 01.12.2014.

Download

IMPROVEMENT OF THE MORTGAGE LENDING PATTERN APPLICABLE TO LOW RISE HOUSING CONSTRUCTION

Vestnik MGSU 2/2013
  • Ivakin Evgeniy Konstantinovich - Rostov State University of Civil Engineering (RGSU) Doctor of Economics, Professor, Honoured Builder of the Russian Federation, Chair, Department of Marketing and Logistics; +7 (863) 20-19-045, Rostov State University of Civil Engineering (RGSU), 162 Sotsialisticheskaya St., Rostov-on-Don, 344022, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Vagin Aleksandr Vladimirovich - Rostov State University of Civil Engineering (RGSU) +7 (863) 20-19-045, Rostov State University of Civil Engineering (RGSU), 162 Sotsialisticheskaya St., Rostov-on-Don, 344022, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 181-188

The analysis performed by the authors has proven that the rate of growth of the active income of residents of the Rostov region is far behind the rate of growth of the value of residential properties. There is no need to wait for any improvement in the welfare of Russians, rather, more houses need to be built and new financing patterns are to be implemented in respect of construction sites that are going to accommodate residential housing construction projects.Given that the number of families affluent enough to buy housing is equal to 11.5 %in the Rostov region, resolution of the housing problem needs a comprehensive approach.Analysis of the value of land in the Rostov region proves that investment projects that contemplate low rise housing construction in the cottage communities or areas with low values of land, i.e. the areas selected by low-income citizens, should be treated as projects that need state funding. Favorable conditions for citizens wishing to build or to buy private low rise houses could be part of the “stimulus.”The authors have developed an improved mortgage lending pattern that incorporates programmes of incentives, supplementary social security payments, and a lower interest rate.

DOI: 10.22227/1997-0935.2013.2.181-188

References
  1. Perechen’ federal’nykh tselevykh programm, realizuemykh na territorii Rostovskoy oblasti [List of Federal Target-oriented Programmes Implemented in the Rostov Region]. Ofitsial’nyy portal Pravitel’stva Rostovskoy oblasti [Official Website of the Government of the Rostov Region]. 2012. Available at: http://www.donland.ru/Default.aspx?pageid=92214. Date of access: 01.12.12.
  2. Tri programmy dlya molodykh semey [Three Programmes for Young Families]. Rostov-Dom Website of Information and Analysis. 2011. Available at: http://rostov-dom.info/2011/12/tri-programmy-dlya-molodykh-semejj/ Date of access: 01.12.2012.
  3. Akulova T.A. Sravnitel’nyy analiz realizatsii osnovnykh modeley ipotechnogo kreditovaniya v Rossii [Comparative Analysis of Implementation of the Principal Models of Mortgage Lending in Russia]. Finansy i kredit [Finances and Lending]. 2005, no. 12, pp. 52—53.
  4. Artemov S.A. Sistema gosudarstvennogo ipotechnogo zhilishchnogo kreditovaniya [System of State-funded Mortgage Lending Applicable to Housing]. Moscow, Nauka i obrazovanie publ., 2010, 152 p.
  5. Boyko P.V. Kontseptsiya finansovogo obespecheniya sotsial’nogo investirovaniya sistemy dostupnogo zhil’ya [Concept of Financial Security of Social Investments Using the System of Affordable Housing]. Moscow, 2007, 27 p.
  6. Simionov Yu.Fa. Zhilishchnyy kredit (ipoteka) [Housing Mortgage Loans (Hypothec)]. Rostov-on-Don, MarT Publ., 2005, 238 p.
  7. Simionov Yu.F., Dalaksakuashvili I.L., Yas’ko V.L., Yas’ko L.V. Ipoteka: 100 voprosov I otvetov [Mortgage Lending: 100 Questions and Answers]. Feniks Publ., 2006, 252 p.
  8. Chernov A.V. Mekhanizm investirovaniya maloetazhnogo zhilishchnogo stroitel’stva pri realizatsii proektov kompleksnogo osvoeniya territoriy [Pattern of Mortgage Lending Applicable to Low-rise Housing within the Framework of Comprehensive Area Development Projects]. Nizhniy Novgorod, 2012.
  9. Pervyy natsional’nyy zemel’nyy resurs [First National Land Resource]. 2012. Available at: http://www.roszem.ru/regions/rostovskaya-oblast. Date of access: 01.12.2012.

Download

ECONOMIC AND INFORMATIONAL SYSTEM OF MONITORING THE PRODUCTION RESOURCES OF THE NEW GENERATION

Vestnik MGSU 5/2016
  • Silka Dmitriy Nikolaevich - Moscow State University of Civil Engineering (MGSU) Doctor of Economical Sciences, Associate Professor, chair, Department of Economy and Management in Construction, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 93-106

Monitoring of production resources is a large-scale and complicated measure, the results of which are necessary for the state and for private entrepreneurs. There are many approaches to conducting such a monitoring, which firstly base on the information request from the suppliers of the resources by governmental bodies. The authors offer a new approach to data collection, which takes into account the technical achievements of the Russian economy. The main instrument of this approach is geoinformation technologies.

DOI: 10.22227/1997-0935.2016.5.93-106

References
  1. Yas’kova N.Yu. Perspektivy razvitiya stroitel’stva v otraslevom formate [Development Prospects of the Construction Industry in the Branch Form]. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta [Bulletin of Irkutsk State Technical University]. Irkutsk, 2014, no. 2 (85), pp. 233—236. (In Russian)
  2. Kolmykova T.S. Strategicheskie podkhody k prodvizheniyu investitsionnykh vozmozhnostey regiona v razvitii promyshlennogo kompleksa [Strategic Approaches to Promotion of Investment Possibilities of a Region in Industrial Complex Development]. Regional’naya ekonomika: teoriya i praktika [Regional Economy: Theory and Practice]. 2013, no. 35, pp. 2—7. (In Russian)
  3. Kolmykova T.S. Mnogotselevoy kharakter strukturnoinvestitsionnykh preobrazovaniy ekonomiki [Multipurpose Character of Structure-Investment Changes of the Economy]. Mikroekonomika [Microeconomy]. 2010, no. 1, pp. 82—85. (In Russian)
  4. Kolmykova T.S. Organizatsionno-ekonomicheskiy mekhanizm strukturnykh preobrazovaniy ekonomiki [Organizational and Economical Mechanism of Structural Tansformations in the Economy]. Kursk, 2010, 200 p. (In Russian)
  5. Verstina N.G., Taskaeva N.N., Akimova E.M. Planirovanie resursnogo obespecheniya investitsiy v ob”ekty gorodskoy nedvizhimosti [Planning of Resource Support of Investment into the City Real Estate Objects]. Ekonomika i predprinimatel’stvo [Economy and Enterprenership]. 2013, no. 12—2 (41—2), pp. 285—290. (In Russian)
  6. Yas’kova N.Yu. Tendentsii razvitiya stroitel’nykh korporatsiy v novykh usloviyakh [Development Trends of Construction Enterprises in New Conditions]. Nauchnoe obozrenie [Scientific Review]. 2013, no. 6, pp. 174—178. (In Russian)
  7. Kankhva V.S. Formirovanie mekhanizma obespecheniya i povysheniya ekonomiche-skoy ustoychivosti [Forming the Mechanism of Providing and Raising Economical Stability]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 6, pp. 161—166. (In Russian)
  8. Didkovskaya O.V., Mamaeva O.A., Spirina E.S. Ekspertiza, proverka, audit stoimosti stroitel’stva: predposylki, iskhodnye dannye i predproverochnyy analiz (chast’ 1) [Expertise, Eamination, Audit Check of the Construction Cost: Prerequisites, Initial Data and Pretest Analysis (part 1)]. Smetno-dogovornaya rabota v stroitel’stve [Estimate and Contract Work in the Construction]. 2014, no. 11, pp. 23—28. (In Russian)
  9. Didkovskaya O.V., Mamaeva O.A., Spirina E.S. Ekspertiza, proverka, audit stoimosti stroitel’stva: predposylki, iskhodnye dannye i predproverochnyy analiz (chast’ 2) [Expertise, Eamination, Audit Check of the Construction Cost: Prerequisites, Initial Data and Pretest Analysis (part 2)]. Smetno-dogovornaya rabota v stroitel’stve [Estimate and Contract Work in the Construction]. 2014, no. 12, pp. 23—28. (In Russian)
  10. Didkovskaya O.V., Il’ina M.V., Mamaeva O.A., Konovalova M.A. Smetnoe tseno-obrazovanie kak osnova formirovaniya stoimosti stroitel’stva [Estimate Cost Formation as the Basis of Construction Cost Formation]. Samara, SGASU Publ., 2012, 192 p. (In Russian)
  11. Alpatskaya I.E. Razvitie mekhanizma realizatsii sotsial’nykh zhilishchnykh programm [Development of the Mechanism of Implementing the Social Housing Programs]. Mikroekonomika [Microeconomy]. 2011, no. 6, pp. 166—168. (In Russian)
  12. Alpatskaya I.E. Gosudarstvenno-chastnoe partnerstvo i stroitel’stvo dokhodnykh domov : Sovershenstvovanie organizatsionno-ekonomicheskogo mekhanizma stroitel’stva i realizatsii dokhodnykh domov v moskovskom regione [State-Private Partnership and Construction of Guest Houses : Improvement of Organizational and Economic Mechanism of the Construction and Implementation of Guest Houses in the Moscow Region]. Rossiyskoe predprinimatel’stvo [Russian Enterprenership]. 2011, no. 11—1, pp. 21—26. (In Russian)
  13. Yas’kova N.Yu. Innovatsionnye metamorfozy investitsionnykh tsiklov [Innovative Metamorphoses of Investment Cycles]. Ekonomika stroitel’stva [Construction Economy]. 2013, no. 3 (21), pp. 49—59. (In Russian)
  14. Kamenetskii M.I., Yas’kova N.Y. Administrative Resources as a Factor in Improving the Efficiency of the State Administration System. Studies on Russian Economic Development. 2015, vol. 26, no. 2, pp. 124—131. DOI: https://dx.doi.org/10.1134/S1075700715020057.
  15. Silka D.N. Metodologiya sozdaniya mekhanizma effektivnogo upravleniya tsiklom delovoy aktivnosti v stroitel’stve : avtoref. diss. … d-ra ekon. nauk [Methods of Creating the Mechanism of Efficient Business Cycle Control in the Construction : abstract of the dissertation of the Doctor of Economical Sciences]. Moscow, 2014, 42 p. (In Russian)
  16. Silka D.N., Lukmanova I.G., Afanasev A.A., Kasyanov M.A. Synchronization of Processes Related to Economic Activity With Stages of Development of Spatially-Organized Systems. International Journal of Economics and Financial Issues. 2015, vol. 5, no. 3S, pp. 121—124.
  17. Silka D.N. On Priority Measures for Creating the Basis for the Development of the Russian Economy. Life Science Journal. 2014, vol. 11, no. 7s, pp. 310—313.
  18. Kablov E. Shestoy tekhnologicheskiy uklad [Sixth Technological Mode]. Nauka i zhizn’ [Science and Life]. 2010, no. 4, pp. 2—7. (In Russian)
  19. Yas’kova N.Yu., Sokolov V.V. Sovershenstvovanie mekhanizma razmeshcheniya gosudarstvennogo stroitel’nogo zakaza v federal’noy kontraktnoy sisteme [Improvement of the Mechanism of placing State Construction Order in Federal Contract System]. Nauchnoe obozrenie [Scientific Review]. 2012, no. 6, pp. 605—609. (In Russian)
  20. Kankhva V.S. Metodicheskie podkhody k otsenke stoimosti i effektivnosti in novatsionnykh proektov v stroitel’stve [Methodological Approaches to Estimation of the Cost and Efficiency of Innovative Projects in the Construction]. Ekonomika i predprinimatel’stvo [Economy and Entrepreneurship]. 2014, no. 5—2 (46—2), pp. 902—905. (In Russian)
  21. Lugovaya V.P., Abdukadyrova Kh.A., Suyunov A.S. Operativnyy kontrol’ kachestva produktsii predpriyatiy stroyindustrii [Operative Control of Production Quality of Construction Industry Enterprises]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2015, no. 8, pp. 161—170. (In Russian)

Download

DIRECTIONS OF IMPROVING SELF-REGULATING SYSTEM IN CONSTRUCTION IN THE CONTEXT OF THE THEORY OF CHANGE

Vestnik MGSU 8/2016
  • Uvarova Svetlana Sergeevna - Voronezh State University of Architecture and Civil Engineering (Voronezh GASU) Doctor of Economical Sciences, Associate Professor, Department of Economy and Bases of Entrepreneurship, Voronezh State University of Architecture and Civil Engineering (Voronezh GASU), 84 20-letiya Oktyabrya str., Voronezh, 394006, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Myshovskaya Lyudmila Petrovna - Voronezh State University of Architecture and Civil Engineering (Voronezh GASU) Candidate of Technical Sciences, Associate Professor, Department of Construction Organization, Inspection and Real Estate Control, Voronezh State University of Architecture and Civil Engineering (Voronezh GASU), 84 20-letiya Oktyabrya str., Voronezh, 394006, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Belyaeva Svetlana Viktorovna - Voronezh State University of Architecture and Civil Engineering (Voronezh GASU) Candidate of Economical Sciences, Associate Professor, Department of Economy and Bases of Entrepreneurship, Voronezh State University of Architecture and Civil Engineering (Voronezh GASU), 84 20-letiya Oktyabrya str., Voronezh, 394006, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 110-120

Self-regulation in construction is characterized by a number of essential disadvantages, which reduce its efficiency. The authors justify scientific and methodological base of self-regulation, which includes the elements of the theory of change and self-organization. Introduction of self-regulation is considered as organizational and economical change, the life cycle of which is an implementation process of the projects of change. According to the lifecycle, key problem zones of self-regulation process are determined and a number of required economical and institutional changes are offered.

DOI: 10.22227/1997-0935.2016.8.110-120

Download

From the interests of shareholders to the interests of stakeholder wide groups in the basis of strategic stability of business

Vestnik MGSU 10/2016
  • Babaeva Meltem Samedovna - Moscow State University of Civil Engineering (National Research University) (MGSU) postgraduate student, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 94-104

At the present time profound economic and political changes are happening in Russia, which directly influence the state and development speed of the construction industry. The consequences of the crisis affected business activity construction companies in Russia. The prospects of the further development of construction and investment sector are possible only in case of creation of competitive products: creation of construction objects with accound for market demands, application of modern construction technologies and high-quality materials, reduction of labour, materials, energy costs per unit of construction production, decrease of bureaucratization of the procedures and minimization of shadow economy influence on order distribution. This is possible only in case of efficient interaction of the participants of construction and investment sector. The author considers the concept of stakeholders and the problem of interaction of the participants of construction-investment sector due to the lack of attention of professional community to the corresponding field of knowledge - the stakeholder theory. On meso-level the diversity of functional roles resulting from the main provisions of this theory, greatly influences the strategic positions of the development of the field. The author also considers the use of bank guarantees and bonds and other issues for improving the sphere of activities of companies with a great number of stakeholders.

DOI: 10.22227/1997-0935.2016.10.94-104

Download

Results 1 - 20 of 51
  • «
  •  Start 
  •  Prev 
  •  1 
  •  2 
  •  3 
  •  Next 
  •  End 
  • »