The Gea biosolids Decanter pro is a line of decanters designed to achieve high wastewater sludge and biogas yields in municipal wastewater treatment systems. The high degree of standardization and the compact, modular design of the biosolids Decanter pro ensure easy “plug & play” integration in established processes with minimal adjustment requirements and fast delivery. The line is also optimized for high energy efficiency, requiring as little as 0.7 kW/h per cubic meter of sludge to be dewatered. The company provides the biosolids Decanter pro in nine machine sizes with throughput capacities of 1 m³/h to 120 m³/h – also available as skid, mobile or retrofit-type solutions.
With this portfolio of machines, the company ensures a high degree of flexibility in terms of applications and covers almost all common requirements involved in the treatment of municipal wastewater sludge. “To achieve this, we first analyzed the requirements and parameters of numerous Chinese wastewater treatment plants in detail, and optimized the Gea biosolids Decanter pro to fulfil these requirements”, explained Steve Tzuoo, Country Managing Director for Greater China. “The development processes saw the Gea engineers in Germany collaborate closely with the Gea sales company in China.” In doing so, the team drew on Gea’s decades of expertise as a sludge specialist in the wastewater industry – with decanter centrifuges as its core technology – as well as the company’s 125 years’ experience in the field of centrifugal separation technology.
Turning cost drivers into income sources
With the development of the biosolids Decanter pro line, the company offers a sustainable solution to facilitate economical operation of municipal wastewater treatment plants. This means that, in future, rather than simply relying on capital investments, decisive parameters will include the dryness level of solids, polymer consumption, biogas yield after digestion and nutrient recovery rate. It turns wastewater management – until now a cost-intensive process with high levels of energy consumption – into a new source of income and marketing through the recovery of valuable resources and energy carriers. Potential yields include phosphorous for the fertilizer market and biogas for power generation.
