(openPR) - Innovation in vacuum technology today is characterized by increases of efficiency and cost reductions in energy demand. Specially designed vacuum systems offer substantial customer benefits. Oerlikon Leybold Vacuum informs about these advantages on occasion of the Thermprozess / METEC exhibition at Düsseldorf.

The highest priority for vacuum pumps and systems certainly is the reliable delivery of the required vacuum levels. The trouble-free operation of the vacuum system is a must. The growing pressure to save energy is not allowed to restrict the productivity of the plant. Still, vacuum pumps and systems must be designed following the “state of the art” regulations.

Fighting against global warming and increasing greenhouse gas concentrations, the regimentation of CO2 emission are the justification for the European Commission to set up the European Directive 2005/32/EC. This and several amending directives describe a framework of eco-design requirements for energy using products asking for increased efficiencies. New standards and norms have been written and others have been updated which now need to be considered in new product engineering projects. Furthermore, energy costs are rising constantly and will continue to rise in the future.

Considering these aspects the design of modern furnaces has changed recently. New designed vacuum furnaces are operating much more efficient than older furnaces. Also modern steel degassing plants use more and more mechanical vacuum systems instead of energy-wasting steam ejector systems. Also here, modern vacuum pumps and pump systems, designed to support these energy saving attempts, have proven their capabilities.

High reliability can be reached by using traditional technologies as e.g. oil-sealed rotary piston or rotary-vane pumps, roots blowers and diffusion pumps, but also also more modern technologies such as dry screw pumps already have a proven track record to work most reliable even under harshest conditions. Today’s standard dry pumps are screw pumps with variable pitch rotor design. Continues compression along the rotor length minimizes the energy demand. Older technologies with constant screw pitch or even dry pumps based on multiple stages of roots- or claw type rotors, have significantly higher power consumption due to design and pumping principle. But even the plurality of today’s screw-pumps with variable pitch differs a lot from each other. Most pumps of the 600 m3/h class demand app. 10 kW power at typical furnace operation pressures below 1 mbar, which is a clearly higher value as those of a comparable rotary-vane pump.

The DRYVAC pump series of Oerlikon Leybold Vacuum are optimized with regard to the mechanical rotor design, the electrical motor concept and by selection of a perfectly matched build-in frequency converter.The achieved result in energy saving is substantial, as the pump only consumes 6.9 kW at 1 mbar, is even more energy efficient than a rotary-vane pump and therefore is the new bench mark for power consumption in the market. The build-in frequency converter also offers potential for additional savings and higher process control. Many process steps do not require “full-power” suction speed, especially during operation at rougher pressures, e.g. during carburizing.

Soft start and ramping functionality can be realized with the variable frequency drive. Chamber pressure can be controlled by varying the rotational speed. The customer can even realize a process specific “standby condition” considering certain valve positions to save for example the volume of supplied Nitrogen. Next to these environmental issues, the modern design of the DRYVAC eliminates sensitive components as shaft- seals or couplings which clearly increase robustness and reliability of the pump.

Modern designed pumps improve the energy consumption, but several measures can also improve the situation with traditional pumps. Oil-sealed pumps and roots-pumps need to be equipped with newest standard IE2-motors and can be operated with frequency converters to deliver just as much suction speed as required. Oil-diffusion pumps can be equipped with innovative control-systems which can identify the actual power demand and regulate the power supply of the heaters accordingly. These measures diminish the power consumption of a diffusion pump by more than 30 per cent.

Today, all modern vacuum technology options should be considered for choosing the right vacuum solution. Modern system solutions are robust, highly reliable, environmental friendly and cost efficient.

A World Leader in Vacuum and Coating Technology

Oerlikon Leybold Vacuum engineers, produces and markets vacuum pumps and coating systems for a wide variety of vacuum applications in PV. For more information on the new MAGiNTEGRA, the DRYVAC and the UNIVEX, or the full-line vacuum technology portfolio offered by Oerlikon Leybold Vacuum, please visit www.oerlikon.com/leybold.

About Oerlikon
Oerlikon (SIX: OERL) is a leading high-tech industrial group specializing in machine and plant engineering. The Company is a provider of innovative industrial solutions and cutting-edge technologies for textile manufacturing, thin-film coating, drive, vacuum, solar energy systems and advanced nanotechnology. A Swiss company with a tradition going back 150 years, Oerlikon is a global player with around 16,000 employees at over 150 locations in 36 countries and sales of CHF 2.9 billion in 2009. The Company invests more than CHF 200 million annually in R&D, with over 1,200 specialists working on future products and services. The operative businesses rank either first or second in their respective global markets.

Oerlikon Leybold Vacuum GmbH
Bonner Str. 498
D-50968 Köln

Christina Steigler
Corporate Communications
T: +49 221 347 1261
F : +49 221 347 31261
christina.steigler@oerlikon.com

www.oerlikon.com/leyboldvacuum