Abstract
A large number of major industrial cities around the world are characterized by industrial sites located in the central part of the city and areas close to the center. A significant share of these zones has lost their relevance and is not used as the production site, but functions as rental business. Development of urban environment is related to not only a higher density of residential buildings, taller buildings in business areas and intensive development of infrastructure, but also changes in a functional application of individual city zones. A great potential of development of intra-city areas is found in industrial zones. Historically, such industrial conglomerates were formed on the outskirts of cities, but development of any urbanized area means its growth. Thus, industrial sites formerly located on the outskirts are found in central areas of metropolises. They create extra load on environmental ecology, manufacturing products with certainly higher cost due to additional expenses resulting from a high cadastral value of land and buildings in the city, high salary of specialists living in metropolises, and other factors. One of the most important aspects of the development of the urban environment is to conduct a comprehensive reconstruction of the existing urban development areas aimed at creating favorable living conditions and using the industrial, engineering, scientific and other potentials of the construction complex efficiently. The relevance of the study considered in this paper is due to the need to create an organizational and technological model for the development of design documentation for the redevelopment of industrial facilities, when there are no federal or regional programs in Russia related to this area, as well as no regulatory framework to control the activities of design organizations running the above mentioned projects. The paper describes the general principles of the development of the organizational and technological model, which allows us to evaluate and optimize the activities of a design company, when repurposing industrial facilities, as well as improving the design processes of such facilities.
Keywords
Repurposing of areas, organizational and technological model, redevelopment of industrial facilities, organization of production, development of the urban environment, efficiency of project implementation.
1. Topchiy D.V., Yurgaitis A.Yu., Babushkin E.S., Zueva D.D. Development of the methodology for integrated control at construction sites, reconstruction and repurposing]. Obespechenie kachestva stroitelstva v g. Moskve na osnove sovremennykh dostizheniy nauki i tekhniki: sbornik trudov Pervoy sovmestnoy nauchno-prakticheskoy konferentsii GBU «TsEIIS» i IPRIM RAN [Construction quality assurance in Moscow applying modern achievements of science and technology: collection of papers of the First Joint Scientific and Practical Conference of the State-Financed Institution Center of Expertise, Research and Tests in Construction and the Institute of Applied Mechanics of the Russian Academy of Sciences]. Moscow, 2019, pp. 267–272. (In Russ.)
2. Lapidus A.A. Optimization of development project management. Stroitelnye materialy, oborudovanie, tekhnologii XXI veka [Construction materials, equipment and technologies of the 21st century], 2008, no. 3 (110), pp. 50–52. (In Russ.)
3. Zueva D.D., Babushkin E.S., Topchy D.V., Yurgaitis A.Yu. Construction supervision during capital construction, reconstruction and re-profiling. MATEC Web of Conferences, 2019, vol. 265. DOI: 10.1051/matecconf/201926507022.
4. Lapidus A.A. Successful experience in construction project management. Stroitelnye materialy, oborudovanie, tekhnologii XXI veka [Construction materials, equipment and technologies of the 21st century], 2008, no. 6 (113), pp. 86–88. (In Russ.)
5. Topchy D.V., Yurgaitis A.Yu., Kravchuk A., Shevchuk D. Controlling methods of buildings' energy performance characteristics. Topical Problems of Architecture, Civil Engineering and Environmental Economics (TPACEE 2018) electronic edition. E3S Web of Conferences, 2019, vol. 91. DOI: 10.1051/e3sconf/20199102026.
6. Lapidus A.A., Saidaev Kh.L.A. The need to introduce standards for general contractors as an essential tool for the development of the construction industry. Tekhnicheskoe regulirovanie. Stroitelstvo, proektirovanie i izyskaniya [Technical regulation. Construction, design and survey], 2011, no. 7, pp. 36–39. (In Russ.)
7. Topchy D.V., Lapidus A.A. Construction supervision at the facilities renovation. Topical Problems of Architecture, Civil Engineering and Environmental Economics (TPACEE 2018) electronic edition. E3S Web of Conferences, 2019, vol. 91. DOI: 10.1051/e3sconf/20199108044.
8. Topchiy D.V, Yurgaitis D.Yu., Bolotova A.S. The possibilities of using global satellite navigation systems for the functions of construciton control and regulating the resource supply of construction enterprises by optimizing shunting work. Innovatsii i investitsii [Innovation and investment], 2019, no. 2, pp. 258–263. (In Russ.)
9. Topchiy D.V, Tokarsky A.Ya. Formation of the basis of information technologies in the implementation of state construction supervision in renovated urban areas. Nauka i biznes: puti razvitiya [Science and business: paths of development], 2019, no. 2 (92), pp. 141–148. (In Russ.)
10. Lapidus A.A. The influence of modern technological and organizational measures on the achievement of the planned results of construction projects. Tekhnologiya i organizatsiya stroitelnogo proizvodstva [Technology and organization of construction operations], 2013, no. 2, p. 1. (In Russ.)
11. Lapidus A.A. Potential of efficiency of organizational and technological solutions of construction facilities. Vestnik MGSU [Vestnik of Moscow State University of Civil Engineering], 2014, no. 1, pp. 175–180. (In Russ.)
12. Volovik M.V., Ershov M.N., Ishin A.V., Lapidus A.A., Lyang O.P., Telichenko V.I., Oleinik P.P., Tumanov D.K., Feldman O.A. Modern approaches to issues of an organizational and technological design. Tekhnologiya i organizatsiya stroitelnogo proizvodstva [Technology and organization of construction operations], 2013, no. 3, pp. 10–16. (In Russ.)