How Pumps are Used in the Pharmaceutical Industry?

Just like many large-scale industrial production units that seek to become efficacious with their processes and daily operations, the pharmaceutical and chemical industry also utilizes pumps. These pharmaceutical pumps are part of the processing equipment used by organizations and establishments to ensure efficient and contamination-free production of goods. Let’s take a closer look at what they are and how they are used.

What are Pharmaceutical Pumps?

Pharmaceutical pumps are similar to other pumps utilized by various industries to process different chemicals according to their needs. However, pharmaceutical pumps are specifically designed to handle and improve the processing capabilities of various constituents. This equipment is selected by medicine and drug manufacturers to overcome production challenges in a repeatable process.

The Importance of Pharmaceutical Pumps

Perhaps one of the single most apparent reasons to use pumps in the pharmaceutical industry is the need to transport fluids through tubing to processing equipment and help the production process. The pumps therefore must not only be able to prevent contamination, and maintain hygiene and sanitary conditions but also must ensure that the drugs and medications don’t lose their usefulness.

Hence it can be understood that these pharmaceutical pumps play a much bigger role in the production process than what meets the eye. Without the use of proficient pumps, manufacturers of drugs and medicine will not be able to accomplish the desired results in the crystallization, degassing, distillation, drying, and sterilization processes.

Common Types of Pharmaceutical Pumps Used Today

Since the production process in the pharmaceutical industry can vary a lot and each drug and medicine dictates in own particularities therefore an assortment of pumps are used. Some of the most prominent pumps that pharmaceutical industry deploy include:

Arterial Pumps

These pumps are valuable for patients who need assistance with circulation in their lower extremities. Arterial pumps utilize compression therapy to stimulate flow in both directions of blood flow benefiting the arteries and veins of the legs and feet. This pump works with sleeves that wrap around the feet and legs to deliver directed pressure to move the blood. 

Booster Pumps

As the name implies booster pumps are those that can be used additionally to increase the flow rate. These pumps can be used in tandem with other types of pumps in order to reach higher flow requirements. Organizations and establishments use booster pumps at treatment plants and along the pipelines so that they can maintain a safe level of pressure throughout.

Centrifugal Pumps

Primarily considered one of the most advanced industrial pumps that are used in the pharmaceutical industry, centrifugal pumps can be used in a variety of applications. Not only are they highly efficient but they also comprise a simple design and operation along with being generally less expensive than other pump types. Centrifugal pumps can also be an ideal choice when dealing with large amounts of material and the need to move them from one location to another with ease.

Diaphragm Pumps

These pumps are capable of handling a wide range of pressure changes as well as liquid flow rates. Diaphragm pumps can operate in tandem with water growth thus allowing for increased industrial activity in the area. One of the striking features of these pumps is that they are resistant to corrosion. Anti-corrosive material is used on their inner surfaces which improves their flexibility, precise mechanics, and self-priming capabilities.

Lift Pumps

This one is a no-brainer. Lift pumps as their name suggests are predominantly and above all used for lifting water from a reservoir or storage tank’s surface and then transport it to the treatment processing section. Lift pumps are capable of moving a lot of water as they are considerably larger pumps, however, they operate a low discharge pressure. In a way, you can say that they focuse on volume rather than generating water pressure.