The BUCK® AC Valve from GEA brings solvent-resistant functionality to a range of powder transfer applications in multiple industries

Extending its portfolio of split butterfly valves for contained powder processing, the new BUCK® AC Valve from GEA builds on the functionality and performance of the tried-and-tested MC split butterfly valve

Designed using exactly the same core principles, with two identical half valves that are both driven by a common actuator, the AC has the same footprint as the BUCK® MC Valve and even uses the same control architecture, actuators and other accessories. 

Complementing GEA’s other pressure-rated valves, the AC has been built to operate at high temperature (up to 150 °C) conditions, and at up to 2.5 bar in the open position and 6 bar in the closed position. Previous versions were only pressure-rated in the closed position. 

This next-generation addition to GEA’s valve portfolio also makes it suitable for applications using previously incompatible solvents. The seal in any valve determines its level of solvent resistance, which also governs what types of materials you can work with and process. 

And whereas the BUCK® MC Valve continues to be the default choice for the contained transfer of active powders from one vessel to another in oral solid dosage pharmaceutical manufacturing lines, the AC takes this performance to the next level for more physically demanding environments. 

Compared with the original MC valve seal, the AC version has been completely reworked to make it smaller and more sustainable. Reducing both the size and weight of the seal not only makes it easier to produce, it also reduces the amount of raw material use means that there’s less waste when it comes to replacing the wear parts. And, by being able to cost-effectively utilize a more exotic rubber compound in the AC, GEA is now able to provide a valve that’s compatible with a wider range of solvents. 

As well as delivering the same level of flexibility as the MC version, the seal is ten times smaller, 80% lighter and scratch-resistant. This means that the AC valve can be used in both secondary pharmaceutical applications as well as in agrochemical processes and systems for the production of active pharmaceutical ingredients (APIs) wherein alcohol-based and/or organic solvents are widely used. 

In addition, upgrading from an MC to an AC is easy, convenient and only involves changing the half valve element. 

Designed for both current and future applications, the BUCK® AC Valve confirms GEA’s position as a pioneer in containment solution and is a timely addition to the #ContainedThinking range of high-quality components that address the needs of a broad array of customers. 

Cost-compatible with the trusted MC valve, and with sustainable sourcing and use in mind, the AC adds high-pressure, high temperature, solvent-resistant performance to almost any campaign and any concept.

Аналитика GEA

Josep Masramón and his daughter stand in front of their GEA batch milking installation.

Как доение партиями поддерживает современное молочное животноводство

Последнее достижение в области автоматизированного доения — доение партиями. Это техника молочного животноводства, при которой коровы доятся группами в определенное время, обычно два или три раза в день. Технология автоматизации...

Прямо из воздуха

Доступ к безопасной по санитарным нормам воде по-прежнему остается проблемой во многих странах. Из-за болезней, вызываемых грязной питьевой водой, и ежедневных походов за ней многие дети не могут посещать школу. Благодаря сотрудничеству...

Сотрудники GEA — это люди, у которых есть цель

Следуя своей основной миссии — Engineering for a better world (Разработка технических решений, способствующих улучшению условий жизнедеятельности) — компания GEA создает культуру «предпочтительного работодателя», которая предлагает...

Получайте новости от GEA

Будьте в курсе инноваций и историй GEA, подписавшись на новостную рассылку от GEA.

Связаться с нами

Мы всегда готовы помочь! Сообщите минимальные данные, и мы предоставим ответ на ваш запрос.