In our last blog, we’d discussed some facts and figures surrounding clean rooms. Today, we’ll be continuing our blog line with further clean room facts.

Laminar Flow Was a Big Leap

Laminar flow aids in reducing harmful particulates. Through the advent of laminar flow technology, particulate influence is largely reduced. So what is laminar flow, and how does it work? Laminar flow describes the unidirectional flow of air throughout a space. Traditionally, laminar flow is used in some clean rooms to maintain the cleanliness of air. Air is forced downwards (unidirectionally), and recycled or pumped out of the room. Laminar flow is made possible with the use of ventilation systems and air pumps.

What Do Clean Rooms Prevent?

Clean rooms aim to maintain a pristine controlled environment. Often, clean rooms aim to maintain sanitation throughout the environment. Otherwise, clean rooms are utilized to rid a space of particulates that may be harmful to clean room operations. Contaminants can include organic particles – viruses, fungi, and bacteria – or inorganic particles – dust, clothing fibers, paint. You’ll need to be mindful of the contaminants that you’re aiming to avoid, and you’ll need to consider the best class of clean room for your individual needs. Our USP 800 clean rooms, here at Travis Clean Air, are top-of-the-line industry-leading models.

What Is An AirLock?

Some clean room apparati require an air lock. Airlocks are utilized to create a contained passage. Just like a space airlock, an airlock chamber is utilized to grant access for humans and objects to a clean room space. Within an airlock, an air shower may be used to decrease contaminants. Furthermore, other sanitation techniques may be used in an airlock room.