Standard Specifications

Turbine-Ø (mm)

O₂ Input Capacity (SOTR) (kgO₂/h)

Installed Power (kW)

900up to 155.5
1,100up to 217.5
1,250up to 3011
1,400up to 4215
1,600up to 6122
1,750up to 8430
2,000up to 12645
2,250up to 15455
2,500up to 21075
2,800up to 25290
3,000up to 308110

Key Features

Reduce energy costs

Achieve high oxygen transfer efficiency of up to 2.8 kgO₂/kWh, lowering power consumption and driving operational savings.

Proven reliability you can trust

Based on trusted turbine technology with thousands of installations worldwide, providing dependable long-term operation.

Maximise asset life

Full stainless steel construction resists corrosion, extending equipment life and reducing replacement costs.

Lower maintenance requirements

Designed for long service intervals with robust drive systems, reducing downtime and ongoing maintenance effort.

Scale to any application

Wide capacity range enables optimal sizing for everything from small plants to large-scale wastewater facilities.

Maintain consistent performance

Non-clogging turbine design ensures reliable operation and steady oxygen transfer over time.


Applications

The BSK® Turbine is suited to a wide range of wastewater treatment applications requiring efficient aeration and mixing. It is primarily used for activated sludge processes, aerobic sludge stabilisation, and oxygen enrichment in biological treatment systems.

Typical applications span municipal and industrial wastewater treatment, including plants for cities, hotels, airports, and public facilities.

In industrial settings, the BSK® Turbine supports wastewater treatment across the food and beverage sector as well as non-food industries, including manufacturing and processing facilities. It is equally effective in agriculture and aquaculture applications such as animal breeding, fish farms, and slaughterhouses.

Disclaimer: We continuously update and improve our products and services, contact us for more detailed information or to confirm specifications. MAK Water takes no responsibility for any errors resulting from the use of information contained on this website.