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English version Russian version



INTERNATIONAL SCIENTIFIC AND EDUCATIONAL ONLINE JOURNAL 
ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES

2(47) 2019


ArticlePRINCIPLES OF SPACE-PLANNING ORGANIZATION OF THE RECENT PRODUCTION FACILITIES
AuthorsA. Dmitrieva1
1OJSC «Mosprojekt-2 named after M.V. Posokhin», Moscow, Russia
AbstractThe article presents the results of the study of space-planning organization of the latest production facilities, analyzes their main space-planning characteristics. The key principles of design of industrial buildings and complexes are highlighted. They are compactness, flexibility and adaptability, expansiveness. The groups of architectural, structural and engineering methods implementing these principles are described, recommendations on their application are given. Examples and descriptions of the most typical industrial facilities responding these characteristics are given. In the ending part of the article, some conclusions are drawn on the use of these principles in architectural practice.
Keywords: contemporary industrial architecture, industrial facilities, compactness, flexibility, adaptivity, natural lightening, expansion, module
article Article (RUS)
References

  1. Aleksashina V.V. Arhitektura i stroitel'stvo promyshlennyh predpriyatij. Terminy, opredeleniya, ponyatiya. Slovar'-spravochnik: Uchebnoe posobie po special'nosti «Arhitektura» [Architecture and construction of industrial facilities. Terms, definitions, concepts. Dictionary-reference: textbook on the profession "Architecture"]. Moscow, 2009, 392 p.
  2. Bulgakov S.N. Filosofiya, koncepciya i principy sozdaniya sovremennyh proizvodstvennyh zdanij [Philosophy, concept and principles of contemporary industrial buildings]. Promyshlennoe i grazhdanskoe stroitelstvo [Industrial and Civil Engineering]. 2001, no. 2, pp. 17-20.
  3. Gazaryan R.K. Principy formirovaniya adaptivnoj arhitektury nauchno-issledovatel'skih informacionnyh centrov (avtoref. kand. dis.) [Principles of Formation of Adaptive Architecture of Research Information Centers (Cand. Dis. Thesis)]. Moscow, 2013, 29 p.
  4. Kim N.N. Sovershenstvovanie promyshlennyh zdanij mashinostroeniya i legkoj promyshlennosti v usloviyah nauchno-tekhnicheskogo progressa v tekhnologii i stroitel'nom processe [Improvement of industrial buildings of mechanical engineering and light industry in the conditions of scientific and technical progress in technology and construction process]. Moscow, 1973, 69 p.
  5. Kologrivova L.B. Zakonomernosti formirovaniya arhitektury predpriyatij s perspektivnymi proizvodstvennymi sistemami (na primerah otraslej tochnogo mashinostroeniya i priborostroeniya) (avtoref. dok. dis.) [Regularities in Formation of Architecture of Enterprises with Perspective Production Systems (on Examples of Branches of Exact Mechanical Engineering and Instrument-making) (Doc. Dis. Thesis)]. Moscow, 1999, 42 p.
  6. Krylov V.V. Arhitekturnaya tipologiya promyshlennyh zdanij: uchebnoe posobie [Architectural typology of industrial buildings: textbook].Tyumen, 2014, 159 p.
  7. Morozova E.B. Sovremennye tendencii razvitiya promyshlennoj arhitektury [Modern trends in the development of industrial architecture]. Repository of Belarusian National Technical University, 2007, no. 1, pp. 5-10.
  8. Orlova S.S., Pankova T.A., Boluto T.I. Arhitektura promyshlennyh zdanij: Uchebnoe posobie [Architecture of industrial buildings: Tutorial]. Saratov, 2011, 200 p.
  9. Proskurin A.G. Sovremennye principy postroeniya promyshlennyh zdanij [Modern principles of construction of industrial buildings. Vestnik of the Orenburg State University]. 2011, no. 9(128), pp. 170-177.
  10. Sazykina E. Architectural and planning organization features of industrial facilities in the contemporary urban structures. Available at: http://www.marhi.ru/AMIT/2017/1kvart17/PDF/16_AMIT_38_SAZYKINA_PDF.pdf
  11. Khrustalev D. The architectural structure of venture research technology buildings in innovation parks of the Great Britain. Available at: http://www.marhi.ru/AMIT/2010/4kvart10/khrustalev/khrustalev.pdf
  12. Allen Th.J., Henn G.W. The Organization and Architecture of Innovation: Managing the Flow of Technology. Oxford, 2006, 136 p.
  13. Amrey C. Architecture, Industry and Innovation: The Early Works of Nicholas Grimshaw & Partners. Singapore, 2000, 256 p.
  14. Grimshaw N. III. The Future of Industrial Building. Journal of the Royal Society of Arts, Vol. 133, ¹ 5341 (DECEMDER 1984), pp. 47-60.
  15. Weber Au. Lean manufacturing layout. Assembly Magazine, 2012, March. Available at: https://www.assemblymag.com/articles/89823-lean-plant-layout

For citation

Dmitrieva A. Principles of Space-Planning Organization of the Recent Production Facilities. Architecture and Modern Information Technologies, 2019, no. 2(47), pp. 135-149. Available at: https://marhi.ru/AMIT/2019/2kvart19/PDF/09_dmitrieva.pdf