Experimental study and analysis of the functional and life-cycle global warming effect of low-dose chemical pre-treatment of effluent from pulp and paper mills

Aeration, as a process in pulp and paper wastewater treatment, uses the greatest share of the energy. Therefore, if the energy efficiency of the treatment has to be improved, the focus must be on aeration. A key finding from the trials conducted for this paper, with effluent from a paper and pulp mi...

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Bibliographic Details
Published in:Journal of cleaner production 2018-02, Vol.174, p.701-709
Main Authors: Sandberg, Maria, Venkatesh, G., Granström, Karin
Format: Article
Language:English
Subjects:
Bio-methane
Chemical Engineering
Chemical flocculation
Global warming
Kemiteknik
Oxygen transfer
Pre-treatment
Pulp and paper
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Summary:Aeration, as a process in pulp and paper wastewater treatment, uses the greatest share of the energy. Therefore, if the energy efficiency of the treatment has to be improved, the focus must be on aeration. A key finding from the trials conducted for this paper, with effluent from a paper and pulp mill, was that the oxygen transfer coefficient could be doubled and the chemical oxygen demand could be decreased by 25%, if the effluent was pre-treated with 30 mg/l of aluminium coagulant (equivalent to 9.4 tonnes per day of AVR to 20000 cubic metres of effluent). Decrease in oxygen requirement implies decreases in aeration energy use. Pulp and paper mill effluents are not as biodegradable as municipal sewage, and the improvement in oxygen transfer properties of the effluent will have a positive influence over a longer period of time in the biological treatment. If the sludge is digested anaerobically, pre-treatment will also result in doubling the potential for methane generation. A holistic analysis of modifications to processes entails a study of the economic and environmental consequences as well. While the economic aspect is beyond the scope of this paper, only the net global warming as an environmental impact category has been studied, by taking recourse to specific emission coefficients. Of the four dosages of ferric aluminium sulphate considered in this analysis, the net greenhouse gas emissions are the least – 426 kg carbon dioxide equivalent per day when the daily consumption is 9.4 tonnes. [Display omitted] •Industrial wastewater treatment uses resources as energy and nutrients with environmental impact.•Results from lab-trials, modelling of energy use and E-LCA were used for holistic analyse.•Low dose chemical pre-treatment improved the aeration efficiency and the methane potential.•Low dose chemical pre-treatment decreased the need for nutrients.•Lowest CO2-eq for wastewater treatment and sludge handling was found with low dose pre-treatment.
ISSN:0959-6526
1879-1786
1879-1786
DOI:10.1016/j.jclepro.2017.10.214