Not all laboratory freezers are the same. Many medical and laboratory-grade freezers have different functions, sizes, shapes, and more to become a better fit for an individual laboratory. Learn the different types of laboratory freezers to help understand which would be the best fit for your own laboratory setting.
There are many different types of laboratory and medical-grade freezers, each with assorted sizes and orientations. This means you can select a freezer that will more accurately fit into the workflow and available space in your lab. Some of the most common orientations for laboratory freezers are chest freezers, upright freezers, countertop freezers, and undercounter freezers. Counter and undercounter freezers may be better choices for smaller laboratories that don’t have as much available room to spare for a chest or upright freezer.
If you’re constantly moving from laboratory to laboratory to conduct experiments or need to move specimens throughout your lab, a portable freezer may be the choice for you. This specialty freezer allows you to transport specimens without sacrificing quality or putting strict time restraints on your samples. You will need the proper power source, especially while transporting these materials, so make sure to note the transport requirements for certain portable freezers.
Ultra-Low Temperature Freezers
Ultra-low temperature freezers, also known as ULT freezers or deep freezers, are ideal for medical and research facilities. When prescriptions, samples, and drugs require temperatures as low as negative 40 degrees Celsius, the deep freezer is required. There are many reasons to invest in a deep freezer for your laboratory, such as preserving materials and more. Without the use of a deep freezer, some laboratories wouldn’t have the capability to perform tests and house certain samples.
These are some of the different types of laboratory freezers that you might encounter during your laboratory studies and training. It’s important to familiarize yourself with the different freezers and their features so that you better understand which model is right for your own laboratory.