Energy technology

Companies involved in energy technology see themselves confronted by the following challenges:
- Economy and efficiency
- Process reliability and operational safety
- Comprehensive and detailed product documentation
- Many years of proven ability to supply replacement parts or derivative products with the same technological compatibility
We support your company with application-specific products for use in energy-related systems for a variety of purposes and of various orders of magnitude.
Application example for our liquid ring vacuum pumps
- Draining condensate in steam turbines
Application examples for our liquid pumps
- Delivery and circulation in closed circuits
- Feeding boilers in boiler systems and steam generators
- Tank systems, including delivering liquid gas
- Delivery of diesel in backup generators in power stations
- Process heating → Heat and cooling technology
Application ranges
- Oils up to +350 °C
- Water up to +220 °C
- Hot water, liquid gas, fuels, vapours and condensates etc.
Process-related requirements
- Application-specific pumps with optimum design (in terms of operating point, materials, mechanical seals or magnetic couplings)
- Modern, energy-efficient drive systems
- Preparation of material test certificates
- Preparation of certifications (ATEX, "TA Luft")
- Archiving of design documents
- Many years of proven ability to supply
Suitable products for this application

Regenerative turbine pumps- close-coupled pumps with magnetic coupling
50 Hz
Hmax: 28 – 90 m
Qmax: 10 – 200 l/min
60 Hz
Hmax: 28 – 90 m
Qmax: 10 – 200 l/min

Centrifugal pumps- Heat transfer pumps
50 Hz
Hmax: 100 m
Qmax: 550 m³/h
60 Hz
Hmax: 100 m
Qmax: 450 m³/h

Centrifugal pumps- Boiler feed pumps
50 Hz
Hmax: 400 m (PN 40)
Hmax: 600 m (PN 63)
Qmax: 110 m³/h
60 Hz
Hmax: 400 m (PN 40)
Qmax: 130 m³/h

Side channel pumps
50 Hz
Hmax: 400 m (PN 40)
Qmax: 35 m³/h
60 Hz
Hmax: 400 m (PN 40)
Qmax: 42 m³/h

Liquid ring vacuum pumps
50 Hz
pmin: 33 – 150 mbar abs.
Qmax: 2.2 – 1600 m³/h
60 Hz
pmin: 33 – 150 mbar abs.
Qmax: 2.4 – 1900 m³/h