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10.5
Solid Waste
Solid waste results from a variety of sources, including inorganic sludge from the
Chemical recovery consisting of dregs and lime mud, bark and wood residues, as
Well as sand from wood handling. Sludge results from the effluent treatment, and
Consists of inorganic and organic material. In addition, there are dust and ashes
From boilers and furnaces. Most of the organic waste products are burned for energy
Generation. The ash resulting from bark burning typically contains nutrients
Taken with the wood from the forest, and may be suitable as a fertilizer as long as
It is not contaminated with other trace elements such as mercury, lead, or cadmium.
The metal traces that occur naturally in wood are in part collected in the
Lime sludge and in the wastewater treatment sludge. These are then partly discharged
With the effluent.
Sludge from the wastewater treatment constitutes the main group of waste, and
Large amounts may be generated in the primary and secondary treatment stages.
Outlook
The amounts of sludge become smaller with anaerobic treatment conditions.
Because aerobic sludge can be difficult to dewater, primary sludge (with fibers) or
Bark is frequently added to improve results. The amount of inorganic material in
Sludge may be rather high; a few ppm of transition metals in the wood and bark
will translate, together with the lime mud and other waste, into over 40 kg adt–1 of
solid waste [2]. It should be noted that this value is the sum of all waste, consisting
Of dewatered wastewater treatment sludge, wood and other ash and wood waste.
Lime mud and green liquor clarification dregs can be disposed of in landfills.
However, they must be washed very well to avoid the emission of H2S during
Mud drying, and to avoid the leaching of caustic soda residual. Sludge with a high
Content of combustible material may be dried and incinerated.
10.6
Outlook
Hopefully, this short summary on the environmental impact of pulp production
Has highlighted the point that there is no simple solution to all negative impacts.
The close interrelation of the different process steps makes it almost impossible to
Avoid one problem without raising or increasing the size of another one. To name
a few examples: An effluent-free mill will need to dispose of more solid waste and
Consequently may require more fossil fuel or more energy in general. Very tight
Water loops might require more chemical for more frequent cleaning steps, or the
Application of poorly biodegradable chelants. They might at the same time
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