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New KHS Aseptic Block with Bottle Sterilization: High Capacity, Greater Safety, More Hygiene

Press release from the issuing company

  • Energy-efficient InnoPET Blomax Series V stretch blow molder integrated
  • Rotary filler provides three times the capacity of linear variant
  • Bottle sterilization can be combined with FreshSafe PET from KHS

Dortmund – With its new aseptic block for bottle sterilization KHS is setting standards in safety and hygiene. Beverage bottlers don’t have to compromise on performance here, however: thanks to its rotary filler, the block can produce triple the output of the linear filler.

Where maximum safety is of prime concern when filling sensitive beverages into PET bottles, KHS’ linear aseptic fillers have long proved themselves on the market. It’s thus only logical, then, that the Dortmund systems provider is now proud to also present a rotary aseptic filler for higher capacities whose hygienic properties are setting new standards. Here, the machine and systems manufacturer is consciously focusing on bottle sterilization that – unlike preform sterilization – can also be combined with the KHS FreshSafe PET coating system that provides additional product protection for sensitive beverages. In this procedure all potential germs are removed from the containers directly prior to filling. This gives bottlers more flexibility and greater availability during format changeovers than with preform sterilization, where changing the stretch blow molds disturbs the sterile state of the block. Bottle sterilization also allows lightweight containers to be gently handled with ease.

New filler design
The new rotary Innofill PET ACF-R filler has been combined with the energy-efficient InnoPET Blomax Series V stretch blow molder. The resulting InnoPET BloFill ACF-R aseptic block currently has a capacity of up to 36,000 1.0-liter bottles per hour as opposed to the linear fillers that work at a maximum rate of 14,000 bottles an hour. In the future the block will even be available with an output of up to 48,000 500-milliliter bottles every sixty minutes. In addition, the new plant engineering achieves a sterility of log 6 inside the bottles – which is equivalent to a reduction in germs of 99.9999%.

During development special attention was paid to the aseptic filler that was completely redesigned. One key feature was to limit the structure to a maximum of four smaller stars for the supply of hydrogen peroxide (H2O2) and activation and drying with sterile air. The stars are used in place of the previous large carousel. The benefits of this simplified technology are lower consumption figures and lower costs for installation and maintenance thanks to the machinery’s modular design and smaller footprint. “The sterile zone must be completely encapsulated and kept separate from the bottling shop,” says Manfred Härtel, filling product manager for KHS. “Large carousels need a liquid lock to separate them from the ambient air. This isn’t necessary on our version with the small stars, making the machine very much easier to configure and operate.”

High standard of hygiene
The InnoPET BloFill ACF-R is spread out over two levels: at ground level are the stretch blow molder, sterilization module, filler carousel and two-way servocapper. The process technology with the service module, H2O2 preparation, sterile compressed air production, cap sterilization unit and valve manifold are up on the platform.

The outsides and insides of the PET bottles are sterilized before they reach the filler’s aseptic zone where the sensitive products are filled into the containers and then sealed on the servocapper. In the hygiene area a measurable positive pressure is formed using sterile air generated by the block itself. This produces a flow of sterile air both in the direction of the bottle sterilization unit and through the capper to the bottle discharge via an airlock. The containers then undergo quality control (leak and fill level inspection) before traveling on to the dry section of the line.

A large number of fixed nozzles prevents spray shadows from being formed during sterilization of the bottle exterior. When the bottles enter the interior sterilization unit, the neck area is also individually sterilized. “What’s special about our sterilizer is that we’ve done away with the otherwise standard stars between the various processing stars,” Härtel explains. “So that this works, the sterilizer has been constructed so that no intermediate stars are needed and the main stars can directly interact with one another. To avoid collisions, we’ve also fitted the lances for interior sterilization with guide control.” These have movable arms that insert the spray lances into and retract them from the PET bottles. “All told, these new features make for a small aseptic zone and a high standard of hygiene. Together with the reduced number of stars and drives, this considerably reduces the machine’s overall footprint. Another quality hallmark of our bottle sterilization system is that after 24 hours less than 0.5 ppm of H2O2 residue remains in the bottles,” he states happily.

Clean machine
Liquid barriers in the filler carousel safeguard the closed hygiene zone from the outside environment. Here, liquid H2O2 in a concentration of around 30% is used, as is water to prevent the hydrogen peroxide outgassing into the atmosphere and thus protecting health and safety. Rinsing sleeves and CIP caps are also no longer required, as the entire aseptic zone is sanitized with caustic and/or acid identical to that used in interior and exterior cleaning. The latter is used to remove mineral residue that could cause critical deposits to build up which in turn would impact the machine’s sterility. The adapted process significantly reduces the CIP time. To minimize consumption, media is collected, fed back into the system and reconcentrated prior to the next CIP cleaning cycle.

Thanks to its flexibility, the modular aseptic filler is suitable for use with various KHS PET filling systems that have also been modified. These vary their speed according to the respective filling phase and determine the fill level using flow metering. The current standard comprises valves with a free-flow system for the still beverages normally filled on aseptic equipment. Alternatively, systems can be used that are able to process fibers and pulp. In the future, the machinery is also to be capable of the sterile filling of carbonated products such as fruit juice spritzers.

Numerous highlights
Like the filler carousel, the capper that also works in an aseptic environment has a double gas lock to ensure optimum encapsulation. The caps stacked in rows are transported to the compact aseptic zone for sterilization. They are subsequently sterilized inside and out from all sides with vaporized H2O2 on a kind of revolver system and activated and dried. They are then passed down to the capper below in a closed infeed.

Härtel considers a further highlight of the new rotary block to be its automatic format changeovers which, provided the bottle neck remains the same, renders manual operator intervention superfluous, thus retaining the internal sterility. This saves the filler module having to run through a full cleaning and sterilization cycle. At a press of a button on the HMI, within the space of just three minutes various servomotors adjust cams in the filler infeed and discharge, the bottle base guide in the capper and the railings, for instance. Expansion joints and steam barriers are used to maintain sterility. If the bottle neck diameter needs to be changed, this can be done manually as an option.

“With our new system we combine maximum safety with high outputs,” Härtel concludes, pleased that when it comes to sterile filling, KHS is once again able to demonstrate its great expertise in filling technology with its new aseptic block.

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