New Developments in Bioprocess OEMs

New Developments in Bioprocess OEMs

Overview

  • Post By : Ramachandra

  • Source: Ami Polymer Pvt Ltd

  • Date: 14 Jan,2024

Bioprocess OEMs, or original equipment manufacturers, are companies that manufacture equipment for bioprocessing applications such as fermentation, cell culture, and purification. These companies may design and produce equipment such as bioreactors, chromatography systems, and other specialized tools for use in the biotech and pharmaceutical industries.

In recent years, there have been several developments in the field of bioprocess OEMs. One of the main areas of focus has been on improving the efficiency and productivity of bioprocessing equipment. This has led to the development of advanced control systems, sensors, and monitoring tools that allow for better process control and optimization.

Another area of development has been in the design of more modular and flexible equipment. This allows biotech and pharma companies to scale their operations more easily and adapt to changing market demands.

Major changes on which these OEMs are working upon are:

  1. Induction of usage of TPE Braided hoses over regular Silicone Braided hoses
  2. Single-use products over Stainless steel

What are TPE Braided hoses and why are they preferred?

Thermoplastic Elastomer (TPE) braided hoses are a type of hose used for a variety of applications, including in the automotive, aerospace, and industrial sectors. TPE is a type of plastic that combines the properties of rubber with the processing ease of thermoplastics. TPE hoses are known for their durability, flexibility, and resistance to chemicals, weathering, and abrasion. The braiding on TPE hoses is typically made of high-strength fibres such as nylon, polyester, or Kevlar, which provides additional reinforcement and helps prevent kinking and collapsing.

TPE braided hoses are also lightweight and have a small bend radius, making them easy to install and manoeuvre.
TPE braided hoses are available in various sizes and configurations to meet specific application requirements. They can be customized with different braiding patterns, colours, and end fittings to suit different needs. Overall, TPE braided hoses are a reliable and cost-effective solution for a wide range of fluid transfer applications.

TPE (thermoplastic elastomer) braided hoses are commonly used in bioprocess OEMs (original equipment manufacturers) due to their excellent flexibility, durability, and chemical resistance. These hoses are often used in fluid transfer applications such as peristaltic pumping, chromatography, and filtration systems.

One of the main advantages of TPE braided hoses is their ability to withstand repeated flexing without cracking or kinking. This makes them ideal for use in peristaltic pumps, which rely on the compression of tubing to move fluids. TPE hoses also have excellent chemical resistance, making them suitable for use with a wide range of bioprocessing fluids, including acids, bases, and solvents.
Another benefit of TPE braided hoses is their compatibility with sterilization methods such as autoclaving and gamma irradiation. This allows them to be easily sterilized before use in bioprocessing applications, reducing the risk of contamination.
Overall, TPE braided hoses are a popular choice in the bioprocessing industry due to their flexibility, durability, chemical resistance, and compatibility with sterilization methods.

Single-use technology in Bioprocess OEMs

Single-use technology has been touted as the latest and most promising development in bioprocessing technology, fast replacing stainless steel as the material of choice for many bioprocessing engineers.
There has also been increased interest in the use of single-use technologies in bioprocessing, which has led to the development of new and innovative disposable bioreactors, chromatography columns, and other components.

These disposable systems offer several advantages over traditional stainless-steel equipment, including reduced risk of contamination, faster turnaround times, and lower costs. Single-use technologies have their advantages, especially when it comes to avoiding contamination, as they eliminate the need for cleaning. This is particularly important when it comes to satisfying regulatory requirements, an essential consideration for biopharmaceutical processing engineers.

Up-front costs are also significantly lower than stainless steel components, leading to lower redesign process costs.
Single-use does not come without its own challenges, however. Whilst upfront costs are lower, ongoing supply of components can generate significant expenses.

Overall, the field of bioprocess OEMs is constantly evolving, and new developments are likely to emerge as the biotech and pharma industries continue to grow and expand.

About Author:

Ramachandra
Asst.Manager – Domestic Marketing
[email protected]
9152032310

About Author

Asst.Manager - Domestic Marketing