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Nonsterile Api Valves




Das Valves™ Split butterfly valves offer safe, efficient ingredient transfer.
Our Pharmaceutical Safe Containment Split Butterfly Valves are designed for safe handling of non-sterile APIs and formulation ingredients.
During manufacturing process, when moving active pharmaceutical ingredients (APIs) and other sensitive materials around, we have got the solution about waste, efficiency and material integrity. Pharmaceutical Safe Split Butterfly Valves are designed to help streamline material transfer and eliminate worries about yield, contamination and other issues. When dealing with highly potent substances like APIs and highly potent APIs (HPAPIs) in a complex manufacturing environment, companies face a number of challenges.
During material transfer, effective engineering controls are crucial as employee safety is the primary focus.
However, we also aim for minimal disruption to the manufacturing process
Barrier technologies, like isolators and restricted access barrier systems (RABs), can provide better levels of protection and integrity in processes than traditional open environments.

The use of split butterfly valves (SBVs) technology integrated to either the isolator or RABS for the transfer of material in or out of the manufacturing process increases the integrity of the containment solution.
SBVs are designed to prevent contamination, operator contact, and cross-contamination of products in multi-use facilities. The flow of materials can be complex in solid-dose manufacturing and other processes, and the SBV helps increase safety, increase yield and avoid costly waste.
Both halves of the butterfly valves are combined during powder charging, which is intended to enable contained, efficient materials transfer.
Transferring material from one closed system into a separate closed system is one of the key difficulties in powder transfer.
The design specifications of the technology or device used in this process will meet the required accessibility, batch size and containment performance.


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