Switch to: th
30 May 2017 11:41AM

Innovations at the Index 2017: Customer benefit from greater flexibility

06 Apr 17 ,  Administrator
  • 0

Oerlikon Neumag presents innovative electro-charging unit for meltblown systems

 

Neumünster, April 4, 2017 – Oerlikon Neumag will be premiering its newly-developed concept for electrostatically charging meltblown nonwovens at the Index 2017 in Geneva. The new in-line charging unit differs from other concepts currently available on the market as a result of its high level of flexibility when charging the most diverse nonwoven products, particularly in the case of nonwovens with lower basis weights and tenacities.

 

Innovations at the Index 2017: Customer benefit from greater flexibility

The Oerlikon Neumag electro-charging unit can be used to manufacture EPA- and HEPA-class filters


Users can set the optimum charging condition depending on the filter application. High wrapping angles at the guide rollers ensure optimum charging, which can be carried out on both sides, positive and negative. Laboratory trials have shown that – in conjunction with the Oerlikon Neumag meltblown technology – the Oerlikon Neumag charging unit can also be used to manufacture EPA- and HEPA-class filters. To this end, an H14-class filter with an efficiency of 99.995% was produced with an overall pressure loss of less than 100 Pa.

 

Electro-charging for superior filter separation performance

Oerlikon Neumag meltblown technology is one of the most efficient methods for producing very fine and highly-separating filter media made from plastic fibers. Depending on the application, the pore size of a meltblown nonwoven material ranges from 5 to 40 µm. Here, smaller pores increase the mechanical filtration performance, albeit at the expense of higher pressure losses. The fineness of the meltblown fibers used for filter media lies in the 200 to 2,500 nm range. However, even fibers with nanoscale fineness are often not sufficient to separate the finest particles from air or liquid flows. Electrostatically charging filter media can significantly and inexpensively improve the filter performance without increasing the throughput resistance.