Cost minimisation by disintegration - A Full-Scale Comparison



Anke Winter

Johannes Müller

Norbert Dichtl

Institute of Sanitary and Environmental Engineering, Technical University of Braunschweig

Pockelsstraße 2a, D-38106 Braunschweig, Germany

phone:+49(0)531-3917960, fax:+49(0)531-3917947, e-mail:


To optimise anaerobic digestion, different methods of disintegration were investigated at a full-scale plant. Two stirred ball mills, a plant for oxidation with ozone, a lysate centrifuge and an ultrasonic homogeniser were applied.

A positive influence of disintegration on the anaerobic biodegradability could be established with all aggregates. The enhancement of the degree of degradation varied between 7.4 to 26 %. Beside this, laboratory investigations proved that disintegration increases the polymer demand and leads to a lower solid content after dewatering. Higher ammonia concentrations  in the process water after dewatering corroborated the results of the anaerobic degradation.

Capital costs for the aggregates, costs for energy, manpower and maintenance can be covered, if specific costs for disposal are high. If the development of sludge treatment costs in future and the current discussion about sludge disposal are taken into account, sewage sludge disintegration can be a suitable technique to minimise costs on waste water treatment plants.


Disintegration, economic efficiency, full-scale investigations, improvement of stabilisation, lysate centrifugal technique, ozone treatment, stirred ball mills, ultrasonic homogeniser


Full paper in PDF (62 KB)

Source: A. Winter, J. Müller, N. Dichtl (2002). Cost minimisation by disintegration - a full-scale comparison, Proceedings of the 7th European Biosolids and Organic Residuals Conference, Wakefield, UK, November 2002