www.RNIIAKH.com The Rostov Scientific Research Institute of the Academy of Public Services after K.D. Pamfilov   The sewage treatment laboratory



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MAP SITE
  1. 1-12 m3/day sewage treatment plants:
    Biochemical purification of the sewage produced by separate dwelling and communal buildings, farms and small enterprises, characterised by the impurities concentration of up to 500 mg/L BOD and suspended matters of up to 400 mg/L.

  2. 25-100 m3/day sewage treatment plants:
    Biochemical purification of the sewage produced by small settlements and small enterprises characterised by the impurities concentration of up to 1,000 mg/L BOD and suspended matters of up to 400 mg/L.

        - The pictures of the objects.

  3. 200-100,000 m3/day sewage treatment plants:
    Biochemical purification of the sewage produced by settlements, cities and enterprises characterised by the impurities concentration of up to 1,000 mg/L BOD and suspended matters of up to 400 mg/L (Part 1).

        - The film about work of the existing combined works. Size of file = 29 Mb

        - The new film about work of the existing combined works. Size of file = 98 Mb

        -The book "Modern development of operation processes of sewage purification at combined installations"

  4. 200-100,000 m3/day sewage treatment plants:
    Biochemical purification of the sewage produced by settlements, cities and enterprises characterised by the impurities concentration of up to 1,000 mg/L BOD and suspended matters of up to 400 mg/L. (Part 2).

  5. 200-100,000 m3/day sewage treatment plants:
    Biochemical purification of the sewage produced by settlements, cities and enterprises characterised by the impurities concentration of up to 1,000 mg/L BOD and suspended matters of up to 400 mg/L. (Part 3).

       - The pictures of the objects.

       - 1985-2000 Indices Table of Quality of wastewater treatment.

       - Sample design of 200 m3/day biochemical sewage treatment station

  6. Conversion of sewage treatment plants:
    Biofilter, aerotank, settler reservoirs, pump-houses, etc. can be used as a basis for CWs. Meanwhile the works capacity may be raised 1.5 - 4 times, and the nominal power consumption may be cut 3 - 4 times.

       - Conversion of aerotanks.

       - Conversion of biofilers.

  7. Air treatment installations:
    High factor of using air oxygen in CWs, double air-to- solution contact within the installation, permit to reduce power consumption for air disinfection, degassing and deodorising as compared to the existing technologies 3 - 4 times.

  8. Concentrated and high-concentrated wastewater treatment:
    Combined works (CWs) can be used for the purification of the concentrated and high-concentrated wastewater produced by meat-packing, butter-and-cheese factories, sugar-refineries, tinned food factories containing organic impurities of 1,000-5,000 mg/L BOD and suspended matters of up to 3,000 mg/L (Part 1).

  9. Concentrated and high-concentrated wastewater treatment:
    Combined works (CWs) can be used for the purification of the concentrated and high-concentrated wastewater produced by meat-packing, butter-and-cheese factories, sugar-refineries, tinned food factories containing organic impurities of 1,000-5,000 mg/L BOD and suspended matters of up to 3,000 mg/L (Part 2).

  10. Purification of the wastewater produced by pig-breeding complexes.

  11. Sediment condensation installations:
    These installations are destined to treat the sewage sediment. Their capacity is making 100 to 5,000 m3/day.

  12. Microbiological and chemical industry equipment:
    Technologies and designs of combined works, plane, rigid filling, capacitive feeds may be used in the development of new types of biotechnological and chemical equipment (scrubbers, fracking fractionators and packed towers).

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