ESTIMATION OF SPORTS-TECHNICAL READINESS OF STUDENTS OF METHODICAL BRANCH «FOOTBALL» MSUCE

Vestnik MGSU 4/2012
  • Shamonin Andrey Valentinovich - Moscow State University of Civil Engineering (MSUCE) candidate of pedagogical sciences, associate professor, associate professor of chair of physical training and sports, Moscow State University of Civil Engineering (MSUCE), 26, Jaroslavskoe shosse, Moscow, 129337, Russia; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 231 - 234

Increase of sports-technical skill in sports occurs on the basis of last achievements of the theory and physical training and sports practice. Development of football isn't possible without search and introduction in training process of optimum pedagogical models of perfection of physical and technical readiness of football players. Such pedagogical models should be applied, as in groups of initial preparation, so at the subsequent grade levels, including in student's football. Modern training process (pedagogical model), should be under construction on objective indicators of physical, technical and special readiness (so-called feedback). However, the estimation of sports-technical readiness at sports schools on football is reduced only to testing of speed, jumps, juggling, dribbling and a shoot for goal. The same criteria are applied and in student's football. Unfortunately, the given control exercises not in a condition to the full to reflect level of physical and technical readiness of the football player. For more objective estimation of special readiness it is necessary to use the test tasks revealing a level of development of coordination abilities of game structure game and competitive activity (game in football). It will allow trainers to have fuller picture of readiness of the football player, in respect of its professional (football) skills. As a result coach have possibility to trace level of a condition of the various parties of sports readiness (physical, technical and coordination) student's youth engaged in football at each stage of long-term preparation.

DOI: 10.22227/1997-0935.2012.4.231 - 234

References
  1. Matveev L.P. Teoriya i metodika fizicheskoy kultury [Theory and a physical training technique]. Moscow; Physical culture and sports, 1991. 543 p.
  2. Averyanov I.V. Metodika sovershenstvovaniya kinesteticheskikh koordinatsionnykh sposobnostey futbolistov 10-11 let [Technique of perfection coordination abilities of football players of 10-11 years]. Tyumen, 2008. 26 p.
  3. Godik M.A. Fizicheskaya podgotovka futbolistov [Physical preparation of football player]. Moscow: Terra-sports, Olympia The Press, 2006. 272 p.
  4. Golomazov S.V. Футбол. Futbol [Football]. Moscow: ТВТ The Battalion, 2006. 80 p.
  5. Portnov JU.M Sportivnye igry. [Sports games]. Moscow: Academy Publis., 2004. 400 p.
  6. Vitkovski Z. Koordinatsionye sposobnosti futbolistov: diagostika, struktura,ontogenez [Coordination abilities of young football players: diagnostics, structure, ontogenesis]. Moscow, 2003. 232 p.
  7. Friha Mohammed Habib Razvitie koordinatsii dvizheniy i prostranstvennoy oreirntatsii futbolistov 11-13 let [Development of coordination of movements and spatial orientation of young football players of 11-13 years]. St.-Petersburg, 1998. 21 p.

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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.

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FEATURES OF HEAT TREATMENT OF HIGHLY POROUS LAYERED MATERIALS

Vestnik MGSU 5/2013
  • Zhukov Aleksey Dmitrievich - Moscow State University of Civil Engineering (National Research University) (MGSU) Candidate of Technical Sciences, Associate Professor, Department of Composite Materials Technology and Applied Chemistry, 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 .
  • Smirnova Tat’yana Viktorovna - Moscow State University of Civil Engineering (MGSU) postgraduate student, Department of Technology of Finishing and Insulation Materials, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Chugunkov Aleksandr Viktorovich - Moscow State University of Civil Engineering (MGSU) postgraduate student, Department of Technolo- gy of Finishing and Insulation Materials, Director, Department of Inspection of Buildings, Com- prehensive Research Laboratory of Geotechnical Engineering, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Khimich Anastasiya Olegovna - 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.

Pages 97-102

Effectiveness of thermal insulation products is determined by a set of criteria that can be expressed in terms of energy costs: reduction of the cost of heating (the main criterion), energy consumption in the course of construction, energy consumption in the course of production of materials having pre-set properties, and service durability of the material.On the one hand, service durability (as a property) is generated in the course of material production, and on the other hand, it depends on the conditions that the material is exposed to in the course of any construction process. The same parameter affects energy-related criteria. Insulation replacement or unplanned repairs add supplementary energy costs.The manufacturing process of thermal insulation materials contemplates processing of a significant amount of non-renewable natural resources, namely, fuel combustion. Optimization of these costs is necessary and possible through appropriate organization of processes, including the process of heat treatment of products.Layered materials can improve the product performance and durability. Production and heat treatment of mineral fibers are the most energy-consuming steps of the mineral wool production. Optimization of these processes can involve significant economic effects.

DOI: 10.22227/1997-0935.2013.5.97-102

References
  1. Gagarin V.G. Teplozashchita i energeticheskaya effektivnost’ v proekte aktualizirovannoy redaktsii SNIP «Teplovaya zashchita zdaniy» [Thermal Protection and Energy Efficiency in Draft Revised Version of Construction Norms and Rules “Thermal Protection of Buildings”]. Energoeffektivnost’ XXI vek: III Mezhdunarodnyy kongress. [3d International Congress. Energy Efficiency 21st Century]. St.Petersburg, 2011, pp. 34—39.
  2. Khlevchuk V.R., Bessonov I.V. O raschetnykh teplofizicheskikh pokazatelyakh mineralovatnykh plit. Problemy stroitel’noy teplofiziki, sistem mikroklimata i energosberezheniya v zdaniyakh [Analytical Thermophysical Parameters of Mineral Wool Panels. Problems of Thermal Physics, Climate Systems and Energy Efficiency in Buildings]. Moscow, NIISF Publ., 1998, pp. 127—135.
  3. Zhukov A.D. Tekhnologiya teploizolyatsionnykh materialov [Technology of Thermal Insulation Materials]. Moscow, MGSU Publ., 2011, Part 1 — 395 p., Part 2 — 195 p.
  4. Bli?d?ius R., Samajauskas R. The Peculiarities of Determining Thermal Conductivity Coefficient of Low Density Fibrous Materials. Materials Science. MED?IAGOTYRA, 2001, 345 p.
  5. Lienhard J.H. IV, Lienhard J.H. V. A Heat Transfer Text Book. Cambridge, MA, Phlogiston Press, 2003, 749 p.
  6. Zhukov A.D. Smirnova T.V. Gidrodinamika potoka teplonositelya v mineralovatnom kovre [Hydrodynamics of Heat Transfer Agent Flow inside Mineral Wool Mats]. Nauka. Stroitel’stvo. Obrazovanie. [Science. Construction. Education.] 2012, no. 1. Available at: http://www.nso-journal.ru.
  7. Zhukov A.D., Chugunkov A.V., Gudkov P.K. Modelirovanie i optimizatsiya tekhnologii gazobetona [Modeling and Optimization of the Aeroconcrete Technology]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 4, pp. 155—159.
  8. Zhukov A.D., Smirnova T.V., Khimich A.O., Eremenko A.O., Kopylov N.A. Raschet parametrov teplovoy obrabotki mineralovatnykh izdeliy s primeneniem EVM [Computer-based Analysis of Thermal Treatment Parameters Applicable to Mineral Wool Products]. Stroitel`stvo: nauka i obrazovanie [Construction: Science and Education]. 2013, no. 1. Available at: http://www.nso-journal.ru.
  9. Kurochkin V.A., Zhukov D.V., Shelepov E.P. Modelirovanie promyshlennogo rezhima konvektivnoy sushki izdeliy v protsesse eksperimenta [Modeling of Industrial Mode of Convective Drying of Products in the Course of an Experiment]. Stroitel’nye materialy [Construction Materials]. 1979, no. 1, pp. 27—32.
  10. Okorokov A.M., Zhukov D.V. Issledovanie i raschet protsessa teplovoy obrabotki mineralovatnogo kovra metodom produvki teplonositelya [Research into and Analysis of Mineral Wool Heat Treatment by Blowing the Heat Transfer Agent]. Stroitel’nye materialy [Construction Materials]. 1982, no. 7, pp. 32—37.
  11. Petrov-Denisov V.G., Maslennikov L.A. Protsessy teplo- i vlagoobmena v promyshlennoy teploizolyatsii [Heat and Moisture Transfer in Industrial Insulation]. Moscow, Energoizdat Publ., 1983, 192 p.

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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.

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RESEARCH OF EFFICIENCY OF WALL-MOUNTED BOILERS WITH SEALED CHAMBERS USED AS FLAT HEATING SYSTEMS

Vestnik MGSU 12/2012
  • Khavanov Pavel Aleksandrovich - Moscow State University of Civil Engineering (MGSU) Doctor of Technical Sciences, Professor, +7(499)183-26-92, 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 .
  • Markevich Yuliya Gennad'evna - Moscow State University of Civil Engineering (MGSU) Senior Lecturer, Department of Thermal Engineering, Heat and Gas Supply; +7 (499) 183-34-65, 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 199 - 203

The research encompasses the field testing of wall-mounted boilers with sealed chambers integrated into flat-heating systems operating in different modes. Results of field tests of items without the indication of their producers and equipment brands are provided. The testing procedure involved a double-circuit wall-mounted boiler. Its capacity was 30 kW, and it had a sealed natural gas combustion chamber. The main regularities of its operation were identified and boiler heating parameters were assessed when the boiler was in operation at full capacity.
The findings make it possible to state that the reduction of capacity of the heat generator causes an increase in the heat loss. Besides, the results of calculations make it possible to perform
the heating system analysis and to define the area of application of various systems of heat supply. The principal decision based on the basis of the above analysis is the decision to install an independent or a centralized system of heat supply.

DOI: 10.22227/1997-0935.2012.12.199 - 203

References
  1. Postanovlenie Pravitel’stva Moskvy ot 9 iyunya 2009 goda ¹ 536-PP «O gorodskoy programme «Energosberegayushchee domostroenie v gorode Moskve na 2010—2014 gg. i na perspektivu do 2020 goda. [Moscow Government Decree of June 09, 2009 no. 536-PP “About the Urban Programme “Energysaving Construction of Residential Housing in Moscow in 2010—2014 and until 2020”]. Available at: http://mosopen.ru/document/536_pp_2009-06-09. Date of access: 30.09.2012.
  2. Grabovyy P.G., Chernyshov L.N., Lukmanova I.G. Energosberezhenie v zhilishchnoy I kommunal’noy sfere [Energy Saving in the Housing and Public Utilities Sectors]. Moscow – Ekaterinburg, 2008, 426 p.
  3. Kolesnikov A.I., Mikhaylov S.A. Energoresursosberezhenie [Saving of Energy and Other Resources]. Moscow, ANO «MRAI EEM» Publ., 2009, 232 p.
  4. Federal’nyy zakon “O tekhnicheskom regulirovanii» ¹ 184-FZ ot 27.12.2002 g. [Federal Law “On Technical Regulations” no. 184-FZ of 27.12.2002]. Available at: http://www.consultant.ru/popular/techreg/45_1.html. Date of access: 30.09.2012.
  5. Federal’nyy zakon “Ob energosberezhenii i o povyshenii energeticheskoy effektivnosti i o vnesenii izmeneniy v otdel’nye zakonodatel’nye akty RF» ¹ 261-FZ ot 23.11.2009. [Federal Law “On Energy Saving and Improvement of Energy Effi ciency and on Amendments into Specifi c Legal Acts of the Russian Federation”]. Available at: http://www.rg.ru/2009/11/27/energo-dok.html Date of access: 30.09.2012.
  6. Ravich’ M.B. Toplivo i effektivnost’ ego ispol’zovaniya [Fuel and Efficiency of Its Consumption]. Moscow, Nauka Pub., 1971, 697 p.
  7. Rekomendatsii po otsenke ekonomicheskoy effektivnosti investitsionnogo proekta teplosnabzheniya [Recommendations concerning the Assessment of the Economic Efficiency of the Project on Investments into Heat Supply]. R NR «AVOK» Publ., 2006, 39 p.
  8. Postanovlenie pravitel’stva Moskvy ot 5 oktyabrya 2010 goda ¹ 900-PP «O povyshenii energeticheskoy effektivnosti zhilykh, sotsial’nykh i obshchestvenno-delovykh zdaniy v gorode Moskve i vnesenii izmeneniy v postanovlenie pravitel’stva Moskvy ot 9 iyunya 2009 goda ¹ 536-PP» [Moscow Government Decree of October 5, 2010 no. 900-PP “On Improvement of the Energy Effi ciency of Residential, Social Security and Offi ce Buildings in Moscow and on Amendments into Moscow Government Decree of June 9, 2009 no. 536-PP”]. Available at: http://mosopen.ru/document/900_pp_2010-10-05 Date of access: 30.09.2012.
  9. TSN IPST—2004. MO (TSN 41-312—2004 MO) Individual’naya pokvartirnaya sistema teplosnabzheniya na baze dvukhkonturnykh gazovykh kotlov s zakrytoy kameroy sgoraniya. Ministerstvo stroitel’nogo kompleksa Moskovskoy oblasti. 2005 g. [TSN IPST—2004. MO (TSN 41-312—2004 MO) Individual System of Heat Supply Based on Double-circuit Gas Combustion Boilers That Have Sealed Gas Combustion Chambers. Ministry of Construction of the Moscow Region. 2005.]. Available at: http://files.stroyinf.ru/Data1/45/45572/ Date of access: 30.09.2012.
  10. Dmitriev A.N., Kovalev I.N., Tabunshchikov Yu.A. Rukovodstvo po otsenke effektivnosti investitsiy i energosberegayushchie meropriyatiya [Guide for Assessment of Efficiency of Investments and Power Saving Actions]. Moscow, AVOK-PRESS Publ., 2005, 120 p.

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ENERGY AND RESOURCE EFFICIENCY OF TRIBOLOGICAL ENGINEERING METHODS APPLIED TO CONSTRUCTION MACHINERY AND EQUIPMENT

Vestnik MGSU 8/2012
  • Gustov Yuriy Ivanovich - Moscow State University of Civil Engineering Doctor of Technical Sciences, Professor, Department of Mechanical Equipment, Details of Construction Machines and Technology of Metals 8 (499) 183-94-95, Moscow State University of Civil Engineering, 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Voronina Irina Vladimirovna - Moscow State University of Civil Engineering Senior Lecturer, Department of Mechanical Equipment, Details of Construction Machines and Technology of Metals 8 (499) 182-16-87, Moscow State University of Civil Engineering, 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Orekhov Aleksey Aleksandrovich - Moscow State University of Civil Engineering (MGSU) postgraduate student, Department of Mechanical Equipment, Elements of Machines and Technology of Metals 8 (499) 183- 94-95, 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 169 - 174

The subject matter of the article is the energy and resource efficiency of tribological engineering
methods applied to working sections and interfaces of construction machines and equipment
exposed to varied temperature and loading conditions. The relevance of the problem is based on the
need to increase the durability of working sections exposed to intensive wear and tear, to improve
the productivity and to reduce the material and power expenses associated with the maintenance
and repair of the above items of machinery. The solution is based on tribology-related achievements.
Effective tribological methods include surface cladding and spraying of wear-resistant materials
onto the wear surface, induction brazing of reinforcing hard alloys, thermal and chemicothermal
treatment, etc. The most effective is an integrated structural and surface-treatment method.
The resource efficiency of tribological methods is based on their energy efficiency at the stages
of manufacturing and operation. Extension of the service life of products shouldn't increase the
energy consumption rate. The latter is estimated with the help of the efficiency factor of tribological
systems.
The authors propose a new deformation and topography-related method of identification of the
efficiency factor of rubbing elements. It encompasses multiple friction and wear models.

DOI: 10.22227/1997-0935.2012.8.169 - 174

References
  1. Gustov Yu.I. Tribotekhnika stroitel’nykh mashin i oborudovaniya [Tribological Engineering of Construction Machinery and Equipment]. Moscow, MGSU, 2011, 197 p.
  2. Chikhos Kh. Sistemnyy analiz v tribonike [The System Analysis in Tribological Engineering]. Moscow, Mir Publ., 1982, 351 p.
  3. Kragel’skiy I.V., Dobychin M.N., Kombalov V.S. Osnovy raschetov na trenie i iznos [Fundamentals of Friction and Wear Analysis]. Moscow, Mashinostroenie Publ. 1977, 526 p.
  4. Gustov Yu.I., Voronina I.V. Povyshenie dolgovechnosti sredstv mekhanizatsii stroitel’stva [Increase of Durability of Construction Machinery]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 2, pp. 305—308.
  5. Gustov Yu.I., Voronina I.V., Orekhov A.A. Metodologiya issledovaniya tribomekhanicheskikh pokazateley stroitel’noy tekhniki [Methodology of Research of Tribological Engineering Performance Indicators of Construction Machinery]. Mekhanizatsiya stroitel’stva [Construction Machinery]. 2011, no. 8, pp. 10—12.
  6. Gustov Yu.I., Voronina I.V., Lyubushkin K.A. Metod otsenki deformatsionno-destruktivnykh pokazateley detaley stroitel’noy tekhniki [Method of Assessment of Deformation-destructive Indicators of Details of Construction Machinery]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 4, pp. 278—281.
  7. Gustov Yu.I. Voronina I.V. Energotopografi cheskiy metod issledovaniya iznosostoykosti rabochikh organov i sopryazheniy stroitel’noy tekhniki [Method of Power-driven Topographic Examination of Wear Resistance of Operating Elements and Interfaces of Construction Machines]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 2, pp. 273—277.
  8. Gustov Yu.I., Voronina I.V., Orekhov A.A. Opredelenie napryazheniy destruktsii metallov na osnove sinergetiki plasticheskoy deformatsii [Identification of Decomposition Strain of Metals through the employment of Synergetics of Plastic Deformation]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 8, pp. 172—175.
  9. Ivanova V.S., Balankin A.S., Bunin I.Zh. Sinergetika i fraktaly v materialovedenii [Synergetics and Fractals in Material Science]. Moscow, Nauka Publ.,1994, 383 p.
  10. Skudnov V.A. Predel’nye plasticheskie deformatsii metallov [Ultimate Plastic Deformations of Metals]. Moscow, Metallurgiya Publ., 1989, 176 p.

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PROGRAMME-ORIENTED METHODS OF CONSTRUCTION DEVELOPMENT. CONTEMPORARY FORMAT OF TARGET-ORIENTED URBAN DEVELOPMENT PROGRAMS

Vestnik MGSU 3/2012
  • Yaskova Natalya Yurevna - Moscow State University of Civil Engineering (MSUCE) Doctor of Economics, Professor, Department of Economics and Management in Construction Industry, Moscow State University of Civil Engineering (MSUCE), 26 Yaroslavskoe shosse, Moscow, 129337, Russia; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Karasik Denis Mikhaylovich - Moscow State University of Civil Engineering (MSUCE) postgraduate student, Department of Economics and Management in Construction Industry, Moscow State University of Civil Engineering (MSUCE), 26 Yaroslavskoe shosse, Moscow, 129337; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 182 - 186

Requirements applicable to urban construction and investment programmes are considered in the proposed paper. The authors identify the principal problems that prevent successful implementation of the programme-oriented approach and formulate the initial set of the top-priority objectives. They include the basic parameters of the development strategy, indicators of the economic strength of the Programme, overview of any available resources and efficiency of their use in the past, criteria of efficiency of the Program, its constituent blocks and separate actions, methodological recommendations and procedures, mechanisms of distribution and re-distribution of the budgetary funding, commercial risks and procedures that accompany the concentration of urban resources, forms and methods of public control, incentives designated to get co-developers involved into the Programme. The new outlook applicable to the attainment of the pre-set objectives corrects the economic essence of the Programmes. It consists in the system-based representation of the Programme actions as a collection of regulatory, management, and financial modules designated to substantiate and explain the target-oriented criteria. In pursuance of the above, the target essence of the economic simulation of the strategy of urban assets management as part of the Programme actions is identified. The authors believe that an integrated Programme may assure sustainable development of the urban area acting as a self-reproducing system capable of facilitating the satisfaction of ever-growing needs of urban residents and corporate entities, guests and partners of cities and towns, that represent an integral social and economic system in its development.
In the context accepted by the authors, attainment of the above objective will involve fulfillment of each of the aforementioned requirements. They are to assure the concentration of resources and comprehensive satisfaction of the needs of the urban population in terms of the most popular items of real estate within a particular time span.

DOI: 10.22227/1997-0935.2012.3.182 - 186

References
  1. Strategiya sotsial’no-ekonomicheskogo razvitiya strany do 2020 goda [The Strategy of Social and Economiñ Development of the Country Through 2020]. Available at: www.strategy2020.rian.ru. Date of Access: 20.02.2012.
  2. Putin V.V. O nashikh ekonomicheskikh zadachakh [About Our Economic Objectives]. Available at: www.putin2012.ru. Date of access: 13.02.2012.
  3. Schetnaya palata Rossiyskoy Federatsii [The Accounts Chamber of the Russian Federation]. Web site: http://www.ach.gov.ru/ru/about/auditors. Date of access: 22.02.2012.
  4. Yas’kova N.Yu. Razvitie investitsionno-stroitel’nykh protsessov v usloviyakh globalizatsii [Development of Investment and Construction Processes in the Context of Globalization]. Moscow, MAIES, U Nikitskikh vorot, 2009.
  5. Gosudarstvennaya programma g. Moskvy na srednesrochnyy period (2012—2016 gg.) Razvitie zdravookhraneniya v g. Moskve (Stolichnoe zdravookhranenie) [Mid-Term State Programme of Moscow (2012-2016). Development of Health Care in Moscow]. Moscow, 2012.
  6. Rossiyskaya gazeta [Russian Newspaper]. Available at: search.rg.ru/rg/doc.php/553901. Date of access: 12.02.2012. www.rg.ru.
  7. Official web-site of the Major of Moscow and the Moscow City Government, available at: http://www.mos.ru/common/upload/zdravookhranenie.pdf. Date of access: 12.02.2012. www.mos.ru.

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Risk management in the process of technological equipment supply during the construction of power engineering facilities

Vestnik MGSU 6/2015
  • Morozenko Andrey Aleksandrovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Technical Sciences, Professor, Department of Thermal and Nuclear Power Objects 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 .
  • Yakimchuk Roman Vladislavovich - Moscow State University of Civil Engineering (MGSU) Master student, Department of Thermal and Nuclear Power Objects 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 124-130

The accumulated experience of constructing technically complicated objects and the modern design technologies in general allow conducting deep analysis of construction technological solutions, though, during the project implementation there usually appears an objective necessity to substitute a wide list of technological equipment by the analogues with most close technological characteristics. In the production process it is a rather timeconsuming and organizationally complicated task, which is firstly connected with the choice of reliable supplier and contractor, logistic coordination, providing the purchase procedure. The enumerated factors critically influence the terms of energy project implementation.In the article special aspects of the construction of power engineering facilities is considered. The authors justified the necessity of the researches on the life cycle period related to preparation for construction operations, during which the project is influenced by a lot of negative factors and circumstances different in their form and intensity. The examples and the definitions of unforeseen events and circumstances, which can influence on the realization of the project, are given. The solution to the problem of risk management in the process of technological equipment supply during the construction of power engineering facilities is given. They allow implementing the goal function in the best way providing the required efficiency.

DOI: 10.22227/1997-0935.2015.6.124-130

References
  1. Morozenko A.A. Osobennosti zhiznennogo tsikla i etapy razrabotki investitsionno-stroitel’nogo proekta [Features of the Life Cycle and Phases of Development of an Investment Construction Project]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2013, no. 6, pp. 223—228. (In Russian)
  2. Telichenko V.I., Lapidus A.A., Morozenko A.A. Informatsionnoe modelirovanie tekhnologiy i biznes-protsessov v stroitel’stve [Informational Modeling of the Technologies and Business-Processes in the Construction]. Moscow, ASV Publ., 2008, 144 p. (In Russian)
  3. Volovik M.V., Ishin A.V., Lapidus A.A., Leybman M.E., Lyang O.P., Tumanov D.K., Fel’dman O.A. Aktual’nye voprosy tekhnologii i organizatsii stroitel’nogo proizvodstva [Current Problems of Technologies and Organization of the Construction Production]. Tekhnologiya i organizatsiya stroitel’nogo proizvodstva [Technologies and Organization of the Construction Production]. 2012, no. 1 (1), pp. 14—19. (In Russian)
  4. Volkov A.A., Losev Yu.G., Losev K.Yu. Informatsionnaya podderzhka zhiznennogo tsikla ob”ektov stroitel’stva [Information Support of Construction Project Lifecycle]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 11, pp. 253—258. (In Russian)
  5. Danilova T.Yu. Iz chego skladyvaetsya stoimost’ 1 kVt∙ch AES [How is the Price of 1 kW an Hour of NPP Composed?]. Atomnyy ekspert [Nuclear Expert]. 2014, no. 5—6 (26—27), pp. 10—15. (In Russian)
  6. Lapidus A.A. Potentsial effektivnosti organizatsionno-tekhnologicheskikh resheniy stroitel’nogo ob”ekta [Efficiency Potential of Management and Technical Solutions for a Construction Object]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 1, pp. 175—180. (In Russian)
  7. Tripoten' E., Romanova S., Shul'ga I. Sravnenie sovremennoy udel’noy stoimosti stroitel’stva AES v raznykh stranakh; kak optimizirovat’ etot pokazatel’ — rossiyskiy podkhod [Comparison of the Contemporary Incremental Cost of NPP Construction in Different Countries; How to Improve this Factor Russian Approach]. Atomnyy ekspert [Nuclear Expert]. 2014, no. 5—6, pp. 16—23. (In Russian)
  8. Pavlov A.S., Temishev R.R., Shcherbakov Ya.S. Mekhanizm effektivnogo funktsionirovaniya upravlyayushchey kompanii v investitsionno-stroitel’nom proekte [Mechanisms of Efficient Functioning of a Management Company in Investment-Construction Project]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2007, no. 4, pp. 35—41. (In Russian)
  9. Morozenko A.A. Formirovanie optimal’noy s tochki zreniya ustoychivosti organizatsionnoy struktury investitsionno-stroitel’nogo proekta [Forming the Optimal in Terms of Stability Organizational Structure of an Investment and Construction Project]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2012, no. 12, pp. 33—34. (In Russian)
  10. Titarenko B.P. Formirovanie effektivnogo portfelya innovatsionnykh proektov v usloviyakh riska i ogranicheniy po resursam [Forming the Efficient Portfolio of Innovational Projects in the Conditions of Risk and Scarce Resources]. Sotsial’naya politika i sotsiologiya [Social Policy and Sociology]. 2011, no. 1 (67), pp. 118—131. (In Russian)
  11. Ginzburg A.V., Nesterova E.I. Tekhnologiya nepreryvnoy informatsionnoy podderzhki zhiznennogo tsikla stroitel’nogo ob
  12. Morozenko A.A. Povyshenie ustoychivosti biznes-protsessov stroitel’nykh kompaniy [Raising the Efficiency of Business Processes of Construction Companies]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 4, pp. 297—300. (In Russian)
  13. Morozenko A.A. Refleksno-adaptivnaya model’ organizatsionnoy struktury investitsionno-stroitel’nykh proektov [Reflex-adaptive Model of the Organizational Structure of Investment and Construction Projects]. Nauchno-tekhnicheskiy Vestnik Povolzh’ya [Scientific and Technical Volga region Bulletin]. 2013, no. 3, pp. 209–—213.
  14. Abramov A.A. Upravlenie riskami v logisticheskikh sistemakh pri mezhdunarodnykh postavkakh [Risk Management in Logistic Systems at International Deliveries]. Vestnik molodykh uchenykh Samarskoy gosudarstvennoy ekonomicheskoy akademii [Proceedings of Young Scientists of the Samara State Academy of Economics]. 2004, no. 2 (10), pp. 174—179. (In Russian)
  15. Ginzburg A., Ryzhkova A. Accounting “Pure” Risks in Early Stage of Investment in Construction Projects with Energy Efficient Technologies in Use. Applied Mechanics and Materials. 2014, vols. 672—674, pp. 2221—2224. DOI: http://dx.doi.org/10.4028/www.scientific.net/AMM.672-674.2221.

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Raising the 3-d blocks production efficiency using expert evaluation

Vestnik MGSU 5/2014
  • Efimenko Anatoliy Zakharovich - Moscow State University of Civil Engineering (MGSU) Doctor of Technical Sciences, Professor, Department of Technology of Finishing and Isolation Materials, 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 .
  • Grin'ko Boris Grigor'evich - Khoroshevsky Concrete Products Plant DSK-1 chief industrial engineer, Khoroshevsky Concrete Products Plant DSK-1, 3-a, 3 Khoroshevskiy proezd, Moscow, 123007, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 162-169

The method of expert evaluation is used in the cases when there is lack of efficient formalized methods for choosing necessary measures for solving production or scientific problems. In construction industry the field of application of expert evaluation method is quite wide. In the article the method of expert evaluation is described, the data on the peculiarities of producing three-dimensional utility blocks on hypso-cement-trass concretes on the Khoroshevsky Concrete Products Plant DSK-1 is presented. The authors present pall results and expert evaluations on ten-point scale. Expert opinions were processed using mathematical statistics method. The results of statistical indicators calculation is presented and optimal ways of raising the production efficiency for three-dimensional utility blocks are chosen basing on them.

DOI: 10.22227/1997-0935.2014.5.162-169

References
  1. Efimenko A.Z. Upravlenie predpriyatiyami stroyindustrii na osnove informatsionnykh tekhnologiy: monografiya [Management of Construction Industru Enterprises Basing on Information Technologies. Monograph]. Moscow, ASV Publ., 2009, 304 p.
  2. Kramerov D.V., Efimenko A.Z. Izuchenie proizvodstva neavtoklavnogo gazo-betona na osnove ekspertnykh otsenok [Investigation of Non-autoclaved Aerated Concrete Production Basing on Expert Opinion]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, Special issue, no. 1, pp. 352—356.
  3. Ferronskaya A.V. Gipsovye materialy i izdeliya. Proizvodstvo i primenenie: Spravochnik [Gypsum Materials and Products. Production and Application: Reference Book]. Moscow, ASV Publ., 2004, 488 p.

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Development of the methodology of the design decision searching in the process of structural metalwork design

Vestnik MGSU 9/2014
  • Volkov Andrey Anatol'evich - Moscow State University of Civil Engineering (MGSU) Doctor of Technical Sciences, Professor, Chair, Department of Information Systems, Technologies and Automation in Civil Engineering, Rector, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Vasil'kin Andrey Aleksandrovich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Associate Professor, Department of Steel Construction, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337; + 7 (499) 183-37-65; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 123-137

The design decision is usually a synthesis of various requirements to the construction object. The main difficulty is to approve the solution results of all the subtasks, because these various requirements often contradict each other. In the article the existing approaches to design solutions searching for steel structural designs are considered, features of standard and individual design are specified. The associative method of choosing the design decision is offered. The process of search is directed in order to receive favorable coincidence of design situations, current and implemented earlier and to apply the approved decisions. In order to consider the greatest possible quantity of combinations of design solution for structural designs in the article it is offered to create a tree of enumeration of possibilities for decisions, in case of which the possible values of decision parameters vary. The algorithm of searching the design decision is shown by a method of a tree of search creation. Three levels of solution for a problem of steel structural designs are thus described. Also the question is raised of the effectiveness of padding expenses for creating the complete tree of search of options, their analysis and assessment.

DOI: 10.22227/1997-0935.2014.9.123-137

References
  1. Naginskaya V.S. Avtomatizatsiya arkhitekturno-stroitel'nogo proektirovaniya [Automation of Architectural and Construction Design]. Moscow, Stroyizdat Publ., 1979, 175 p.
  2. Ignatov V.P., Ignatova E.V. Evristiki dannykh v stroitel'nom proektirovanii [Data Heuristics in Construction Design]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 2, pp. 226—229.
  3. Kilina A.A., Parinov M.V., Chizhov M.I. Arkhitektura sistemy podderzhki prinyatiya i kontrolya proektnykh resheniy [Architecture of Support System for Design Decision Making and Control]. Vestnik Voronezhskogo gosudarstvennogo tekhnicheskogo universiteta [Proceedings of Voronezh State Technical University]. 2011, vol. 7, no. 12-2, pp. 41—44.
  4. Agafonkina N.V., Karpov Yu.A., Stegantsev D.N. Model' odnokriterial'nogo prinyatiya resheniy v usloviyakh neopredelennosti [Model of One-Criteria Decision Making in the Conditions of Uncertainty]. Vestnik Voronezhskogo gosudarstvennogo tekhnicheskogo universiteta [Proceedings of Voronezh State Technical University]. 2009, vol. 5, no. 6, pp. 36—37.
  5. Veera P. Darji, Ravipudi V. Rao. Application of AHP/EVAMIX Method for Decision Making in the Industrial Environment. American Journal of Operations Research. 2013, no. 3, pp. 542—569. Available at: http://www.scirp.org/journal/PaperInformation.aspx?PaperID=39747#.VA18gPnV9cQ. Date of access: 03.06.2014. DOI: http://dx.doi.org/10.4236/ajor.2013.36053.
  6. Dixon J.R. Design Engineering: Inventiveness, Analysis, and Decision Making. New York, McGraw-Hill, 1966, 354 p.
  7. Hill P. Nauka i iskusstvo proektirovaniya. Metody proektirovaniya, nauchnoe obosnovanie resheniy [Design Science and Art. Design Methods, Scientific Rationale of Solutions]. Moscow, Mir Publ., 1973, 262 p.
  8. Botvinnik M.M. O reshenii netochnykh perebornykh zadach [On Solving Unprecise Brute Tasks]. Moscow, Sovetskoe radio Publ., 1979, 152 p.
  9. Novikova A.N. Opyt optimizatsii proektnogo protsessa na primere real'nogo ob"ekta v g. Kazani [Experience of Optimizing Design Process on the Example of Real Object in Kazan]. Izvestiya KGASU [Proceedings of Kazan State University of Architecture and Engineering]. 2011, no. 4 (18), pp. 100—106.
  10. Khanina A.B., Alekhin V.N. Vnedrenie ekspertnykh sistem v protsesse proektirovaniya stroitel'nykh konstruktsiy [Expert Systems Implementation in the Process of Building Structures Design]. Akademicheskiy vestnik UralNIIproekt RAASN [Academic Proceedings of UralNIIproject of the Russian Academy of Architecture and Construction Sciences]. 2011, no. 2, pp. 82—85.
  11. Koch C., Buhl H. "Integrated Design Process" a Concept for Green Energy Engineering. Engineering. 2013, vol. 5, no. 3, pp. 292—298. Available at: http://www.scirp.org/journal/PaperInformation.aspx?PaperID=28771#.VA2GHvnV9cQ. Date of access: 03.06.2014. DOI: http://dx.doi.org/10.4236/eng.2013.53039.
  12. Ginzburg A.V., Vasil'kin A.A. Postanovka zadachi optimal'nogo proektirovaniya stal'nykh konstruktsiy [Problem Statement for Optimal Design of Steel Structures]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 6, pp. 52—62.
  13. Zhavnerov P.B., Ginzburg A.V. Povyshenie organizatsionno-tekhnologicheskoy nadezhnosti stroitel'stva za schet strukturnykh meropriyatiy [Using Structural Actions to Improve Organizational and Technological Reliability of Construction Activities]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2013, no. 3, pp. 196—200.

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METHODOLOGY OF EFFICIENCY EVALUATION APPLICABLE TO DISTRIBUTED INTELLIGENT POWER MANAGEMENT SYSTEMS WITHIN A NETWORKOF FACILITIES IN THE CONTEXT OF ARBITRARY LIMITATION OF RESOURCES

Vestnik MGSU 5/2013
  • Volkov Andrey Anatol’evich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Technical Sciences, Professor, Rector, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Chelyshkov Pavel Dmitrievich - Moscow State University of Civil Engineering (MGSU) Junior Researcher, Research and Educational Cen- tre for Information Systems and Intelligent Automation in Civil Engineering, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe Shosse, 129337, Moscow, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Sedov Artem Vladimirovich - Moscow State University of Civil Engineering (MGSU) Director of Research Laboratory, Scientific and Educational Center for Information Systems and Intelligent Automatics 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 209-213

In this article, the authors present their original algorithm for the methodology of the efficiency assessment of distributed intelligent power management systems of construction facilities in the context of arbitrary limitation of resources.The method is designated for the analysis of implemented design solutions, and it applies to the systems engineering, classification and management of processes, let alone the evaluation of the efficiency of implemented designs.At first, the engineering systems are identified and described. Then, the processes are split into processes that accompany changes in the the parameters of a building and the management processes that accompany changes in the parameters of a building. For each process, the percentage of the total energy consumption is calculated.The coefficient of intelligence and building automation is based on the percentage of the total energy consumption. Further, the coefficient of efficiency of the implemented management system is identified. Therefore, the method helps to assess the effectiveness of a distributed intelligent power management system, and it may also be employed to minimize the impact of biased factors, such as peer reviews.

DOI: 10.22227/1997-0935.2013.5.209-213

References
  1. Il’ichev V.A. Printsipy preobrazovaniya goroda v biosferosovmestimyy i razvivayushchiy cheloveka [Principles of Transformation of a City into the One Compatible with the Biosphere and Capable of Developing the Man]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Construction]. 2010, no. 6, pp. 3—13.
  2. Il’ichev V.A. Biosfernaya sovmestimost’: Tekhnologii vnedreniya innovatsiy. Goroda, razvivayushchie cheloveka. [Compatibility with the Biosphere, Technology for Introduction of Innovations. Cities That Are Capable of Developing the Man]. Moscow, Librokom Publ., 2011, 240 p.
  3. Volkov A.A. Intellekt zdaniy: formula [Intelligence of Buildings: the Formula]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Construction]. 2012, no. 3, pp. 54—57.
  4. Ashby W.R. An Introduction to Cybernetics. London, Chapman & Hall Ltd., 1957, 295 p.
  5. Ashby W.R. Design for a Brain. New York, John Wiley & Sons Inc., London, Chapman & Hall Ltd., 1960, 286 p.
  6. Gusakov A.A., editor. Sistemotekhnika [Systems Engineering]. Moscow, Fond «Novoe tysyacheletie» publ., 2002, 768 p.
  7. Wiener N. Cybernetics or Control and Communication in the Animal and the Machine. The MIT Press, Cambridge, Massachusetts, 1965, 212 p.

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STRATEGY FOR IMPROVEMENT OF SAFETY AND EFFICIENCY OF COMPUTER-AIDED DESIGN ANALYSIS OF CIVIL ENGINEERING STRUCTURES ON THE BASIS OF THE SYSTEM APPROACH

Vestnik MGSU 12/2012
  • Zaikin Vladimir Genrikhovich - State Unitary Enterprise «Vladimirgrazhdanproekt» (GUP «Vladimirgrazhdanproekt») postgraduate student, Director of Structural Analysis; +7 (4922) 32-29-68, State Unitary Enterprise «Vladimirgrazhdanproekt» (GUP «Vladimirgrazhdanproekt»), 9 Oktyabr'skiy prospekt, Vladimir, 600025, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Valuyskikh Viktor Petrovich - Vladimir State University named after Alexander and Nikolai Stoletov» (VLSU) Doctor of Technical Sciences, Professor; +7 (4922) 47-99-05, Vladimir State University named after Alexander and Nikolai Stoletov» (VLSU), 87, Gor'kogo St., Vladimir, 600000, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 268 - 276

The authors highlight three problems of the age of information technologies and proposes the strategy for their resolution in relation to the computer-aided design of civil engineering structures.
The authors express their concerns in respect of globalization of software programmes designated for the analysis of civil engineering structures and employed outside of Russia. The problem of the poor quality of the input data has reached Russia. Lately, the rate of accidents of buildings and structures has been growing not only in Russia. Control over efficiency of design projects is hardly performed. This attitude should be changed. Development and introduction of CAD along with the application the efficient methods of projection of behaviour of building structures are in demand. Computer-aided calculations have the function of a logical nucleus, and they need proper control. The system approach to computer-aided calculations and technologies designated for the projection of accidents is formulated by the authors.
Two tasks of the system approach and fundamentals of the strategy for its implementation are formulated. The study of cases of negative results of computer-aided design of engineering structures was performed and multi-component design patterns were developed. Conclusions concerning the results of researches aimed at regular and wide-scale implementation of the strategy fundamentals are formulated.
Organizational and innovative actions concerning the projected behaviour of civil engineering structures proposed in the strategy are to facilitate:
safety and reliability improvement of buildings and structures;
saving of building materials and resources;
improvement of labour efficiency of designers;
modernization and improvement of accuracy of projected behaviour of buildings and building standards;
closer ties between civil and building engineering researchers and construction companies;
development of competitive environment to boost competition in the market of structural design companies and in the market of developers.

DOI: 10.22227/1997-0935.2012.12.268 - 276

References
  1. Zaikin V.G., Valuyskikh V.P., Miroshnikov N.N. Effectiveness increase of application programme complex calculation of building constructions in mass projecting on the systematic approach basis. In “Abstracts of the 14th International Conference on Computing in Civil and Building Engineering”. Edited by V.I. Telichenko. Moscow, June 27-29, 2012, pp. 448—449.
  2. Ispol’zovanie komp’yuterov v proektirovanii zhelezobetonnykh konstruktsiy (Velikobritaniya) [Using Computers in Design of Reinforced Concrete Structures (United Kingdom)]. Based on articles from Concrete journal, no. 5, 2003, published by VINTI, no. 6, 2003. Kazakhkstan, Almaty, EKSPRESS-INFORM Journal, 2004, no. 3, pp. 24—26.
  3. Zaikin V.G., Valuyskikh V.P. Status, rol’ i znachenie komp’yuternykh raschetov stroitel’nykh konstruktsiy v massovom proektirovanii [Status, Role and Signifi cance of Computer-aided Design of Civil Engineering Structures in Wide-scale Design]. Promyshlennoe i grazhdanskoe stroitel‘stvo [Industrual and Civil Engineering]. Moscow, 2012, no. 5, pp. 42—44.
  4. Larionov V.V. Dva aspekta mekhanicheskoy bezopasnosti zdaniy i sooruzheniy (publichnaya tekhnicheskaya politika) [Two Aspects of Mechanical Safety of Buildings and Structures (Public Technical Policy)]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrual and Civil Engineering]. Moscow, 2011, no. 6, pp. 11—13.
  5. Valuyskikh V.P., Zaikin V.G. Metodologicheskie osnovy ispol‘zovaniya vychislitel‘nykh kompleksov pri raschete i proektirovanii konstruktsiy [Methodological Fundamentals of Application of Civil Engineering Design Software in Analysis and Design of Structures]. Materials of scientific and practical conference “Itogi stroitel’noy nauki” [Achievements of the Civil Engineering Science]. Vladimir, VlGU Publ., 2010, pp. 124—131.
  6. Zaikin V.G. Sovremennoe sostoyanie komp’yuternykh proektnykh raschetov na osnove metoda konechnykh elementov [Current State of Computer-aided Design on the basis of Method of Finite Elements]. Innovatsii v stroitel’stve i arkhitekture [Innovations in Civil Engineering and Architecture]. Vladimir, VlGU Publ., 2011, pp. 162—166.
  7. Zaikin V.G. O neodnoznachnoy otsenke raschetov stroitel’nykh konstruktsiy [On the Ambiguous Assessment of Analyses of Civil Engineering Structures]. Stroitel’ Kazakhstana [The Builder of Kazakhstan]. 2006, no. 16/17, pp. 4—6.
  8. Zaikin V.G. Pouchitel’noe ekho tragedii v Yasenevo [The Educative Echo of the Yasenevo Tragedy]. Stroitel’stvo i arkhitektura (Kazakhstan) [Construction and Architecture (Kazakhstan)]. 2004, no. 11(187), p. 6.
  9. Krakovskiy M.B. Svyaz’ programmy «OM SNiP ZhELEZOBETON» s programmnymi kompleksami SCAD i Lira [Relation between «OM SNiP ZhELEZOBETON», SCAD and Lira Software Programmes]. Beton i zhelezobeton [Concrete and Reinforced Concrete]. 2007, no. 1, pp. 8—12.
  10. Zaikin V.G. Tekhnologicheskie instruktsii kak osnova sertifi katsii komp’yuternykh programm [Operating Procedures as the Basis for Certification of Software Programmes]. Byulleten’ stroitel’noy tekhniki [Newsletter of Construction Machinery]. 2000, no. 6, p. 55.
  11. Zaikin V.G. O nekotorykh problemakh ispol’zovaniya VK «LIRA» pri proektirovanii metallicheskikh konstruktsiy [On Particular Problems of Employment of LIRA Software in Design of Metal Structures]. Materials of scientific and practical conference “Itogi stroitel’noy nauki” [Achievements of the Civil Engineering Science]. Vladimir, VlGU Publ., 2010, pp. 202—209.
  12. Gorodetskiy A.S., Evzerov I.D. Komp’yuternye modeli konstruktsiy [Computer Models of Structures]. Kiev, FAKT Publ., 2005, 344 p.
  13. Kurzanov A.M. O rekomenduemoy Glavgosekspertizoy Rossii kontseptsii dvoynogo rascheta proektnykh resheniy slozhnykh ob”ektov [On Conception of Duplicated Design Solutions of Complex Structures Recommended by the Main Department of the State Appraisal Board]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrual and Civil Engineering]. Moscow, 2005, no. 11, pp. 51—52.
  14. Zaikin V.G., Valuyskikh V.P. O normalizatsii rezul‘tatov MKE v proektnykh raschetakh stroitel‘nykh konstruktsiy [On Normalization of Results of FEM Analysis Applied to Design of Civil Engineering Structures]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. Stroitel’stvo i arkhitectura [Construction and Architecture]. Moscow, 2011, no. 6, pp. 329—334.
  15. Zaikin V.G. O rezul’tatakh rascheta bezrigel’nogo karkasa na EVM [On Results of Computer-aided Analysis of a Jointless Ossature without Girders]. PROEKT [Design]. 1993, no. 2—3, pp. 137—139.
  16. Zaikin V.G., Valuyskikh V.P. Regulirovanie usiliy v nerazreznykh konstruktsiyakh v sostave kompleksnogo rascheta PK LIRA [Adjustment of Forces within Continuous Structures as Part of the Multi-component Analysis Performed by LIRA Software]. Beton i zhelezobeton [Concrete and Reinforced Concrete]. 2011, no. 6, pp. 13—15.
  17. Zaikin V.G., Valuyskikh V.P. Modelirovanie raschetnoy skhemy komp’yuternogo rascheta pri proektirovanii analoga tipovoy konstruktsii [Modeling of Computer-aided Patterns of Analysis in Design of Standard Structures]. Sovremennye voprosy nauki — XXI vek [Present-day Issues of the Science of the 21st Century]. International scientific and practical conference. Collected works, Part 1. Biznes — Nauka — Obshchestvo [Business, Science, Society]. Tambov, 2011, p. 48.
  18. Larionov V.V., Morozov E.P. Konservativnoe i progressivnoe nachala stroitel’stva [Conservative and Progressive Fundamentals of Civil Engineering]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. Moscow, 2000, no. 4, pp. 50—51.

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Exposure of civil engineers to hazardous and harmful occupational factors and methods of their countering

Vestnik MGSU 7/2013
  • Bumarskova Natal’ya Nikolaevna - Moscow State University of Civil Engineering (MGSU) Candidate of Biological Sciences, Associate Professor, Department of Physical Training and Sports, 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 181-186

Adaptation means accommodation of a living organism to constantly changing conditions external and internal environments. This capacity was developed in the process of the evolutionary development. Absent of this capacity, no human organism can leave normally or adjust to various external factors.In the contemporary research literature, adaptation is associated with different factors, including occupation, climate, social environment, etc. The process of adaptation is complex, and it contemplates different types of adaptation, namely, individual sociopsychological, communicative, and physiological adaptation. It is accompanied by substantial intellectual, mental and physical efforts.The variety of building structures coupled with process-related and organizational methods of their construction require attention to the issues of safety. In the course of life and work (working environment), a person is exposed to various hazards or phenomena, processes, and objects capable of damaging human health under certain conditions. An occupational hazard means an adverse impact on human health in the form of its deterioration or injury under certain conditions.The studies show that the three-shift working activity is the cause of fatigue. Fatigue boosts errors in the sensomotor coordination and deteriorates human health. The daily rhythm of physiological functions is driven by the intensity of the working activity causing changes in the body temperature, heart rate and blood pressure. Harmful factors, such as chlorine and chlorine dioxide, produce negative impact on the psycho-physiological status of the organism. They are countered by the system of adaptation and rehabilitation as an integral part of the university curriculum. Its objective is to enhance the effectiveness of professional activities, to ensure the optimal functioning of a human body exposed to heavy workloads and adverse external conditions.

DOI: 10.22227/1997-0935.2013.7.181-186

References
  1. At’kov O.Yu. Arterial’noe davlenie u rabotayushchikh s nochnymi smenami: sutochnye ritmy, urovni i ikh sezonnye razlichiya [Arterial Pressure of Employees Working Night Shifts: 24-hour Rhythms, Values and Seasonal Variations]. Fiziologiya cheloveka [Human Physiology]. 2012, vol. 38, no. 1, pp. 88—91.
  2. Kal’nish V.V., Shvets A.V. Vliyanie nepreryvnoy sutochnoy raboty na nadezhnost’ deyatel’nosti operatorov [Influence of Continuous 24-hour Work onto Reliability of Operators’ Work]. Fiziologiya cheloveka [Human Physiology]. 2012, vol. 38, no. 3, 81 p.
  3. Solonin Yu.G., Boyko E.R., Loginova T.P., Ketkina O.A. Dinamika fiziologicheskikh i psikhofiziologicheskikh pokazateley u operatorov pri trekhsmennoy rabote v razlichnykh usloviyakh truda [Dynamics of Physiological and Psycho-physiological Parameters Demonstrated by Operators Working Three Shifts under Various Working Conditions]. Fiziologiya cheloveka [Human Physiology]. 2011, no. 3, pp. 135—138.
  4. Soroko S.I. Individual’nye strategii adaptatsii cheloveka v ekstremal’nykh usloviyakh [Individual Human Adaptation Strategies in Case of Exposure to Extreme Conditions]. Fiziologiya cheloveka [Human Physiology]. 2012, vol. 38, no. 6, 78 p.
  5. Romain Barres, Jie Yan, Brendan Egan. Acute Exercise Remodels Promoter Methylation in Human Skeltal Muscule. Cell Metabolism. 2012, vol. 15(3), pp. 405—411.
  6. Milligan S.F., Hister J.A. Ancient Irish Hot Air Bath. OfIreland, IX, Dublin, 1980, 240 p.
  7. Solodkov A.S. Itogi i perspektivy issledovaniy problemy adaptatsii v sporte [Findings of and Prospects for Research into the Problem of Adaptation in Sports]. Uchenye zapiski universiteta imeni P.F. Lesgafta [Scholarly Notes of Lesgaft University]. 2005, no. 18, 65 p.
  8. Grutsyak N.B., Grutsyak V.I. Fizicheskaya kul’tura kak moshchnyy faktor, sposobstvuyushchiy adaptatsii inostrannykh studentov v vuze [Physical Education as the Strong Factor Facilitating Adaptability of International Students at Universities]. Fizicheskoe vospitanie studentov [Physical Training of Students]. 2010, no. 2, pp. 37—39.
  9. Arsen’ev D.G., Zinkovskiy A.V., Ivanova M.A. Sotsial’no-psikhologicheskie i fiziologicheskie problemy adaptatsii inostrannykh studentov [Socio-psychological and Physiological Problems of Adaptation of International Students]. St.Petersburg, 2003, 160 p.
  10. Konik G.A. Uchebnye zanyatiya po vidam sporta kak sredstvo formirovaniya motivatsii k zdorovomu obrazu zhizni u studentov vysshikh uchebnykh zavedeniy [Sports Classes as a Means of Formation of Motivation of University Students to Healthy Lifestyle]. Fizicheskoe vospitanie studentov tvorcheskikh spetsial’nostey [Physical Education of Students of Arts]. 2006, no. 4, pp. 108—114.

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Performance criteria of the layout of the filling area of a petrol station

Vestnik MGSU 12/2015
  • Levin Ruslan Yur’evich - Ivanovo State Polytechnic University (UVGPU) postgraduate student, engineer, Department of Automobiles and Automobile Economy, Ivanovo State Polytechnic University (UVGPU), 20, 8 Marta str., Ivanovo, 153037, Russian Federation.
  • Maslennikov Valeriy Aleksandrovich - Ivanovo State Polytechnic University (IVGPU) Candidate of Technical Sciences, Associate Professor, chair, Department of Vehicles and Vehicle Fleet, Ivanovo State Polytechnic University (IVGPU), 20, 8 Marta str., Ivanovo, 153037, Russian Federation.

Pages 128-135

The increasing traffic on the roads requires relevant technological planning, construction, reconstruction and re-equipment of the expanding network of filling stations. The basis for developing of these guidelines lies in the evolution of urban planning concepts and methods to determine the effective parameters of gas stations. This article describes various layout solutions of the fueling area of a station taking into account the main technical characteristics and regulatory requirements for the design, construction and operation of the station. Typical projects of one power station may be of various sizes, taking away residential areas under the land station changes depending on the layout and features host of technological equipment. Excessive area occupied by the service area leads to additional costs for construction, taxes, etc. For an overall evaluation of the effectiveness of the station operation, the paper proposed an integrated criterion of efficiency of layout solutions, considering both technical and economic indicators of the object functioning. In order to justify the effective layout fueling positions at the station the authors used a comparative analysis of the fueling areas and gas throughput for different number of zones and the method of placing fuel dispensers. According to the results of calculations the linear relationship was obtained between the number of columns and the size of the filling area of the station. As a critical metric in evaluating the effectiveness of various variants of layout solutions of a petrol station an assessment of its bandwidth we made. According to the results of calculations a single-row method of speaker placement on the station is more efficient than double-row or three-row ones.

DOI: 10.22227/1997-0935.2015.12.128-135

References
  1. Khodyukov F.B. Upravlenie razvitiem roznichnykh setey avtomobil’nykh zapravochnykh stantsiy kak napravlenie sovremennoy strategii rossiyskikh vertikal’no-integrirovannykh neftyanykh kompaniy [Managing the Development of Retailers of Automotive Fuel Stations as the Direction of the Modern Strategies of Russian Vertically Integrated Oil Companies]. Modernizatsiya podgotovki upravlencheskikh kadrov Rossii v kontekste mirovoy sistemy obrazovaniya : sbornik materialov Mezhdunarodnoy nauchno-prakticheskoy konferentsii [Modernization of Management Training in the Context of the Global Russian Education System]. Krasnoyarsk, Sibirskiy federal’nyy universitet Publ., 2012. Available at: http://elib.krasu.ru/handle/2311/13105. (In Russian)
  2. Rezchikov A.F., Tverdokhlebov V.A. Prichinno-sledstvennye kompleksy vzaimodeystviy v proizvodstvennykh protsessakh [Causal Complexes of Interactions in Production Processes]. Problemy upravleniya [Management Problems]. 2010, no. 3, pp. 51—59. (In Russian)
  3. Boytsov M.S., Boyko S.V., Karavaykov V.M. Informatsionnaya podderzhka prinyatiya resheniya pri upravlenii energoeffektivnost’yu predpriyatiya [Information Support of Decision-Making in the Management of Enterprise Energy Efficiency]. Vestnik Kostromskogo gosudarstvennogo universiteta im. N.A. Nekrasova [Herald of the Kostroma State University named after N.A. Nekrasov]. 2011, vol. 17, no. 1, pp. 227—230. (In Russian)
  4. Bezrodnyy A.A. Metodologiya sovershenstvovaniya sistem nefteproduktoobespecheniya [Methodology of Improving Oil Product Supply Systems]. Mekhatronika, avtomatizatsiya, upravlenie (MAU—2010) : materialy 7-y nauchno-tekhnicheskoy konferentsii [Mechatronics, Automation, Control (MAU—2010) : Materials of the 7th Scientific and Technological Conference]. Saint Petersburg, OAO «Kontsern «TsNII «Elektropribor» Publ., 2010, pp. 70—73. (In Russian)
  5. Myakinin A.S., Kositsina E.S., Ganzha O.A. Avtozapravochnye stantsii, raspolozhennye na gorodskikh territoriyakh, kak ob”ekt ekologicheskoy opasnosti [Petrol Stations Located in Urban Areas as an Object of Environmental Hazard]. Vestnik Volgogradskogo gosudarstvennogo arkhitekturno-stroitel’nogo universiteta. Seriya: Stroitel’stvo i arkhitektura [Bulletin of Volgograd State University of Architecture and Civil Engineering. Series: Construction and Architecture]. 2010, no. 18, pp. 149—152. (In Russian)
  6. Vlasov A.D. Otsenka rynochnoy stoimosti zemel’nykh uchastkov AZS i pridorozhnogo servisa [Assessment of the Market Value of the Land Plots for Fuel Stations and Roadside Service]. Interekspo Geo-Sibir’ [Interexpo Geo-Siberia]. 2015, vol. 3, no. 3, pp. 75—80. (In Russian)
  7. Buyanov A.Yu. O vliyanii ploshchadi zemel’nogo uchastka na ego udel’nuyu rynochnuyu stoimost’ [On the Influence of Land Area on Its Specific Market Value]. Vestnik Federal’nogo gosudarstvennogo obrazovatel’nogo uchrezhdeniya vysshego professional’nogo obrazovaniya Moskovskiy gosudarstvennyy agroinzhenernyy universitet im. V.P. Goryachkina [Bulletin of Federal State Professional Education Institution “Moscow State Agroengineering University named after V.P. Goryachkin]. 2010, no. 5. (44), pp. 73—75. (In Russian)
  8. Leonov S.A. Matematicheskaya otsenka faktorov, okazyvayushchikh vliyanie na proizvodstvenno-sbytovuyu deyatel’nost’ shveynykh predpriyatiy [Mathematical Evaluation of the Factors Affecting the Production and Sales Activities of Clothing Companies]. Izvestiya vysshikh uchebnykh zavedeniy. Tekhnologiya tekstil’noy promyshlennosti [News of the Institutions of Higher Education. Technology of Textile Industry]. 2013, no. 5 (347), pp. 5—10. (In Russian)
  9. Levin R.Yu., Maslennikov V.A., Markelov A.V., Smetanin A.V. O kriterii kachestva planirovochnykh resheniy ob”ektov tekhnicheskogo servisa avtomobiley [On the Quality Criteria of Planning Decisions for the Objects of Car Technical Service]. MinorUrsa : sbornik nauchnykh rabot [MinorUrsa : Collection of Scientific Papers]. Moscow, Rusprint Publ., 2014, pp. 16—20. (In Russian)
  10. Levin R.Yu., Maslennikov V.A., Usipbaev U.A. Effektivnost’ planirovochnykh resheniy avtozapravochnoy stantsii [Effectiveness of Planning Solutions for Petrol Stations]. Informatsionnaya sreda vuza : materialy XXI Mezhdunarodnoy nauchno-tekhnicheskoy konferentsii [Information Environment of the University : Materials of the 21st International Science and Technology Conference]. Ivanovo, IVGPU Publ., 2014, pp. 335—336. (In Russian)
  11. Usufov M.M.O. Perspektivy razvitiya avtoservisa [Development Prospects of Car Service]. Tekhniko-tekhnologicheskie problemy servisa [Technical and Technological Problems of Service]. 2012, vol. 1, no. 19, pp. 72—77. (In Russian)
  12. Vlasenko V.V. Prognozirovanie trudozatrat na tekhnicheskoe obsluzhivanie i remont avtotransportnykh sredstv [Forecasting Labor Costs for Maintenance and Repair of Motor Vehicles]. Avtomobil’nyy transport [Automobile Transport]. 2012, no. 30, pp. 45—49. (In Russian)
  13. Mel’nik V.Yu., Kizim A.V., Kamaev V.A. Podderzhka prinyatiya resheniya pri formirovanii ocheredey rabot s pomoshch’yu sredstv avtomatizatsii planirovaniya tekhnicheskogo obsluzhivaniya i remonta oborudovaniya [Decision Support During the Formation Stages of Work with the Help of Automation of Planning the Maintenance and Repair of the Equipment]. Izvestiya Volgogradskogo gosudarstvennogo tekhnicheskogo universiteta [News of Volgograd State Technical University]. 2011, no. 12, vol. 11, pp. 107—110. (In Russian)
  14. Solov’ev A.E. Metod podderzhki prinyatiya resheniy pri sozdanii seti AZS [Method of Decision Support in the Creation of a Network of Filling Stations]. Gornyy informatsionno-analiticheskiy byulleten’ [Mining Informational and Analytical Bulletin]. 2002, vol. 6. Available at: http://cyberleninka.ru/article/n/metod-podderzhki-prinyatiya-resheniy-pri-sozdanii-seti-azs. (In Russian)
  15. Yaskevich A.E. Analiz faktorov vliyaniya na stoimost’ avtomobil’noy zapravochnoy stantsii [Analysis of the Factors Influencing the Cost of Petrol Station]. Imushchestvennye otnosheniya v Rossiyskoy Federatsii [Property Relations in the Russian Federation]. 2010, no. 2 , pp. 55—71. (In Russian)
  16. Levin R.Yu., Maslennikov V.A. Obosnovanie optimal’nogo sposoba razmeshcheniya toplivorazdatochnykh kolonok na avtozapravochnykh stantsiyakh [Substantiation of the Optimum Way of Placing Fuel Dispensers at Gas Stations]. Molodye uchenye — razvitiyu tekstil’no-promyshlennogo klastera (Poisk — 2014) : materialy mezhvuzovskoy nauchno-tekhnicheskoy konferentsii s Mezhdunarodnym Uchastiem [Young scientists for the development of textile industrial cluster (Search — 2014) : Materials of the Interuniversity Science and Technical Conference with International Participation]. Ivanovo, IVGPU Publ., 2014, pp. 211—214. (In Russian)
  17. Zhdakaev I. Ulovki dlya zapravki [Tricks for a Petrol Station]. Kommersant” Den’gi [Kommersant Daily. Money]. 02.04.2012. No. 13 (870). Available at: http://www.kommersant.ru/doc/1905798?stamp=6347218. Date of access: 12.04.2013. (In Russian)
  18. Kochetkov A.V., Ermolaeva V.V., Ermolaev B.V., Myrzakhmetov B.A. Novye instrumental’nye sredstva izyskaniya i proektirovaniya ob”ektov transportnogo stroitel’stva [New Research Tools and Design of Transportation Objects Construction]. Vestnik Saratovskogo gosudarstvennogo tekhnicheskogo universiteta [Bulletin of Saratov State Technical University]. 2010, no. 1 (44), pp. 189—194. (In Russian)
  19. Mayakov A. Zapravlyaysya udobno! [Refuel Conveniently!]. Sovremennaya AZS : elektronnyy zhurnal [Modern Patrol Station. Electronic Journal]. 2012, no. 10 (127). Available at: http://www.sovazs.com/showarticle.phtml?id=1880. Date of access: 10.10.2015. (In Russian)
  20. Zhumasheva B.K. Sovershenstvovanie rezhimov tekhnicheskogo obsluzhivaniya avtomobiley [Improvement of Technical Service of Cars]. Sovremennye problemy transportnogo kompleksa Rossii [Modern Problems of the Transport Complex of Russia]. 2013, no. 4, pp. 167—173. (In Russian)
  21. Inshakov S.A., Inshakov N.A. Otsenka ekologicheskoy bezopasnosti deyatel’nosti AZS [Assessment of Ecological Safety of Gas Stations Activity]. Vestnik Tambovskogo universiteta. Seriya: Estestvennye i tekhnicheskie nauki [Tambov University Reports. Series: Natural and Technical Sciences]. 2014, no. 5, vol. 19, pp. 1420—1421. (In Russian)
  22. Koroleva E.B., Zhigiley O.N., Kryazhev A.M., Sergienko O.I., Sokornova T.V. Nailuchshie dostupnye tekhnologii: opyt i perspektivy [The Best Available Techniques: Experience and Prospects]. Saint Petersburg, 2011, 123 p. (In Russian)
  23. Usanovich S.A., Lumiste E.G. Teoreticheskiy analiz vozdeystviya opasnykh faktorov pozhara na personal i tekhnologicheskoe oborudovanie avtozapravochnykh stantsiy [Theoretical Analysis of the Impact of Dangerous Factors of Fire on Personnel and Technological Equipment of Petrol Stations]. Vestnik Federal’nogo gosudarstvennogo obrazovatel’nogo uchrezhdeniya vysshego professional’nogo obrazovaniya Moskovskiy gosudarstvennyy agroinzhenernyy universitet im. V.P. Goryachkina [Bulletin of Federal State Professional Education Institution Moscow State Agroengineering University named after V. P. Goryachkin]. 2011, no. 2 (47), pp. 64—68. (In Russian)

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Tools of production scheduling - an integral efficiency potential of organizational, technological and management solutions of a construction object

Vestnik MGSU 1/2015
  • Lapidus Azariy Abramovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Professor, Doctor of Technical Sciences, chair, Department of Technology and Management of the Construction, Honored Builder of the Russian Federation, Recipient of the Prize of the Russian Federation Government in the field of Science and Technology, 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 97-102

A director of a construction company of any level seeks for a tool, which allows estimating the quality, reliability, safety and durability of the works using one general parameter. The author of the article considers a new tool of operations management - an integral efficiency potential of organizational, technological and management solutions of a construction object. The investigations allow assuming, that the chosen direction - integrating the efficiency potentials of organizational, technological and management solutions - provides interesting possibilities to the researchers and management of a construction object not only of a theoretical, but also of a practical character. The author gives terminological substantiation, methodological base and variants of mathematical model formation. The direction of further investigations is formulated - from singular potentials to integral potential of a construction object.

DOI: 10.22227/1997-0935.2015.1.97-102

References
  1. Lapidus A.A. Integral Potential Effectiveness of Organizational and Technological and Managerial Decisions of Building Object. Applied Mechanics and Materials. Trans Tech Publications. Switzerland. 2014, vol. 584—586, pp. 2230—2232. DOI: http://dx.doi.org/10.4028/www.scientific.net/AMM.584-586.2230.
  2. Gusakov A.A., Bogomolov Yu.M., Brekhman A.I., Vaganyan G.A., Vaynshteyn M.S. Sistemotekhnika stroitel’stva: Entsiklopedicheskiy slovar’ [System Engineering of Construction: Encyclopedic Dictionary]. Editor A.A. Gusakov. 2nd edition, revised and enlarged. Moscow, ASV Publ., 2004, 320 p. (In Russian)
  3. Magurin V.M., Azgal’dov G.G., Belov O.E., Biryukov A.N. Kvalimetricheskaya ekspertiza stroitel’nykh ob”ektov [Quality-Metric Examination of Construction Facilities]. Saint Petersburg, Politekhnika Publ., 2008, 527 p. (In Russian)
  4. Lapidus A.A., Berezhnyy A.Yu. Matematicheskaya model’ otsenki obobshchennogo pokazatelya ekologicheskoy nagruzki pri vozvedenii stroitel’nogo ob”ekta a [Mathematical Model Designated for the Assessment of the Integrated Environmental Load Produced by a Building Project]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 3, pp. 149—153. (In Russian)
  5. Lapidus A.A. Potentsial effektivnosti organizatsionno-tekhnologicheskikh resheniy stroitel’nogo ob”ekta [Efficiency Potential of Management and Technical Solutions for a Construction Object]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 1, pp. 175—180. (In Russian)

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