Highest quality and cleanliness of pharmaceutical products is a result of excellent plant engineering. Leading plant manufactures have been putting their trust in Höntzsch measuring technology for decades.
Filling sensitive pharmaceutical products is a highly complex process. It has been continuously improved in the past years. Leading manufacturers of sterilising tunnels offer, depending on the plant’s capacity and final product a variety of suitable plants.
Sterilisation of the glas containers is an inevitable necessity in the pharmaceutical industry. They have to be washed in a washer system before hot air sterilisation can begin.
Next step: the containers go through the sterilising tunnel in the following steps:
1. Drying (preheating)
2. Sterilisation and depyrogenation (heating zone)
Höntzsch sensors are at work directly inside the sterilising tunnel. They monitor laminar air flow that’s necessary for the hot air sterilisation.
In all three steps of the process each air flow is monitored with vane wheel sensors. The heating zone has the highest demands for measuring technology with temperatures over 300 °C. This is necessary to achieve the required reduction of microorganisms. The high temperatures lead to a decrease in atmospheric density. At the same time flow velocity is within the low range of only 1 m/s.
The sensor has to reliably measure flow to ensure the success of the hot air sterilisation and therefore the safety of the pharmaceutical product.
This makes requirements in the pharmaceutical industry quite high.
Höntzsch developed the perfect solution for these very special pharmaceutical applications and has been improving it over the years in close cooperation with the plant manufacturers. The result is our vane wheel sensor ZS30, which is worldwide known in the industry of measuring technology as „state of the art“.
This solution is well established among leading pharmaceutical companies!!
Following the sterilising process is filling the vials with the actual product. Based on these experiences we’re able to offer many similar solutions for the chemical and pharmaceutical industry.
An example is the monitoring of drying plants and ovens. Low flow velocities in combination with high temperatures have to be measured reliably.