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CALS Project: Hardware and Technological Design of a Modular Water Management System for Industrial Applications

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This paper presents a systematic analysis of the problem of providing industrial enterprises with water resources. An integrated water management system was developed for ECOS-1. It covers all technological and auxiliary processes where water resources are used and includes 6 hardware and technological modules, namely, water recycling, obtaining demineralized water, obtaining high-purity water, steam generation, condensate collection, and processing, collection and treatment of polluted waters, and hot water supply. The development was performed using the computer support system, Continuous Acquisition and Life cycle Support (CALS)-technology.

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References

  1. V. I. Danilov-Danilyan and O. M. Rosenthal, “Methodology of environmental standardization for natural waters,” Doklady Earth Sci., 500, 895–899 (2021).

    Article  CAS  Google Scholar 

  2. V. I. Danilov-Danilyan, “Water resources of Russia: state, use, protection, management problems,” Ekonomika. Nalogi. Pravo, 12, No. 5, 18–31 (2019).

    Article  Google Scholar 

  3. O. B. Makeeva and A. S. Kolosov, “Development of a strategy and main directions for supporting the Russian economy,” Natsional’n. Int. Prioritety Bezopasn.’, 6, No. 7 (64), 78–80 (2010).

  4. N. V. Gorodnikova, S. Yu. Gosteva, I. A. Gokhberg, et al., Indicators of Innovative Activity: 2009, statistical compendium, GUVShE, Moscow (2009).

  5. A. Bessarabov, V. Trokhin, G. Zaremba, and T. Stepanova, “System analysis of the integration of innovative resources of the leading enterprises of the chemical complex,” Chem. Eng. Trans., 88, 1177–1182 (2021).

    Google Scholar 

  6. V. I. Semenikhin and L. M. Dogadina, ‘Technical audit of the water management of industrial enterprises,” Vodooch. Vodopodg. Vodosnabzh., No. 8 (68), 4–7 (2013).

  7. A. Bessarabov, V. Trokhin, and T. Stepanova, “Water treatment in energy-efficient systems of chemical reagents and high pure materials industry,” Clean Technol. Environ. Policy, 24, No. 2, 721–728 (2022).

    Article  CAS  Google Scholar 

  8. S. Ya. Grodzensky, Ya. S. Grodzensky, and E. A. Kalacheva, “CALS-technologies as a resource for improving the quality and competitiveness of high-tech products,” Stand. Kach., No. 5 (923), 90–93 (2014).

  9. V. E. Trokhin, A. S. Radetskaya, G. V. Zaremba, and A. M. Bessarabov, “Information CALS-model of the technological regulation of the water industry for the production of chemical reagents and ultra-pure substances,” Matematich. Metody Tekhn. Tekhnolog., No. 7, 72–75 (2022).

  10. V. E. Trokhin, A. G. Vendilo, A. M. Bessarabov, A. A. Kazakov, and T. I. Stepanova, “Use of the CALS concept for development of equipment modules producing reagent-quality aliphatic hydrocarbons,” Chem. Petrol. Eng., 48, No. 5-6, 271–277 (2012).

    Article  CAS  Google Scholar 

  11. A. A. Kazakov, A. M. Bessarabov, V. E. Trokhin, and A. G. Vendilo, “Development of equipment modules for flexible technology of high-purity inorganic acids,” Chem. Petrol. Eng., 51, No. 9, 597–603 (2015).

    Google Scholar 

  12. A. A. Povorov, N. V. Kornilova, and K. N. Platonov, “Technology for obtaining deeply demineralized water based on ion exchange without the use of mixed action filters,” Energosberezh. Vodopodg., No. 1, 34–37 (2011).

  13. S. P. Shestakov, “Water as an important chemical reagent in a modern analytical laboratory,” Analitika, No. 2 (21), 110–117 (2015).

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This study was supported by the Russian Foundation for Basic Research as a part of scientific project No. 20-03-00515 titled “System studies of the life cycle of development and production in the technology of high-purity materials.”

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Authors and Affiliations

  1. R&D Centre “Fine Chemicals”, Moscow, Russia

    A. M. Bessarabov, V. E. Trokhin, A. K. Popov & A. S. Radetskaya

Authors
  1. A. M. Bessarabov
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  2. V. E. Trokhin
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  3. A. K. Popov
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  4. A. S. Radetskaya
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Correspondence to A. M. Bessarabov.

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Translated from Khimicheskoe i Neftegazovoe Mashinostroenie, Vol. 58, No. 10, pp. 28−34, October, 2022

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Bessarabov, A.M., Trokhin, V.E., Popov, A.K. et al. CALS Project: Hardware and Technological Design of a Modular Water Management System for Industrial Applications. Chem Petrol Eng 58, 855–864 (2023). https://doi.org/10.1007/s10556-023-01172-x

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  • DOI: https://doi.org/10.1007/s10556-023-01172-x

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