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UDC 628.336.5

Nikolaev Yu. A., Kevbrina M. V., Dorofeev A. G., Vanyushina A. Ya., Agaryov A. M.

High technology of methane digestion of wastewater sludge with biomass recycling


The technology of methane digestion of wastewater sludge with biomass recycling developed at Mosvodokanal MPUE is presented. The technology advantages ensure reducing the dry weight of sludge compared to the traditional digestion due to deeper decomposition of ash-free matter, and saving the sludge transportation, dewatering and utilization costs. Introduction of the technology at large-scale facilities will provide for eliminating the problem of hydraulic overloading.

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  1. Climent M., Ferrer I., Baeza M. D., et al. Effects of thermal and mechanical pretreatments of secondary sludge on biogas production under thermophilic conditions // Chemical Engineering Journal. 2007. № 133 (1–3).
  2. Kaliuzhnyi S. V., Danilovich D. A., Nozhevnikova A. N. Anaerobnaia biologicheskaia ochistka stochnykh vod / Itogi nauki i tekhniki. T. 29. Ser. Biotekhnologiia. – M., VINITI, 1991.
  3. Scott C., Grant S., McCarthy P., et al. The first two years of full-scale anaerobic membrane bioreactor (AnMBR) operation treating high-strength industrial wastewater. – 2010.
  4. Metodika tekhnologicheskogo kontrolia raboty ochistnykh sooruzhenii gorodskoi kanalizatsii. – M., 1971.
  5. Giunter L. I., Gol'dfarb L. L. Metantenki. – M., 1991.
  6. Angelidaki I., Sanders W. Assesment of the anaerobic biodegradability of macropollutants // Reviews in Environmental Science and Biotechnology. 2004. № 3.
  7. Tekhnicheskii spravochnik po obrabotke vody. T. 2. Degrémont, 2007.

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