Global Bioprocess Antifoam Market: Snapshot: Chemical antifoaming agents are used for the destruction of excessive foam in biological processes. This is because foaming can transform into major problem at the time of large-scale recombinant protein bioprocesses. Antifoams are available in several forms with a range of properties and varied foam destruction capabilities, with the ones needed several times becoming depleted over time.
Antifoaming agents may contain surfactants that may include hydrophobic solids dispersed in carrier oil, liquid single components or solids, and aqueous suspensions or emulsions. Antifoams can affect the growth rates of prokaryotic as well as eukaryotic organisms along with changing surface properties such as lipid content which results in change in permeability.
On the other hand, certain concentrations of antifoams are related to detrimental effect on cells and protein production. The effects of these concentrations are dependent on the protein being expressed. This emphasizes the importance of optimizing the concentration of antifoams for bioprocesses. However, very less information is available regarding the biological effects of antifoaming agents and most of it is not recent.
Present research suggests that antifoams can have wide effects on bioprocesses, which includes the culture environment as well as the cells. This requires a detailed evaluation of these agents. This is mainly because antifoams are generally added without due regard to their potential biological impact on processes.
Antifoams can be divided into fast and slow antifoams that depends on their mechanism of foam destruction. While slow antifoams are often oils that destroy foam over a relatively longer period of time, fast antifoams are usually mixed agents that enter the foam films.
Bioprocess antifoam market generally encounters an issue during the biological process which is excessive foaming. Bioprocess antifoam market thus requires a foam control agent, termed as antifoam. An antifoam can be actively used during fermentation or any other process when foaming is an inherent issue. Foaming can disrupt a process as the foam comprises of tiny bubbles which are of mechanical or chemical origin and it interrupts in proper aeration of the cell culture.
It is to be noted that an antifoam should meet the need of fermentation industry, perform highly, should possess low toxicity, with neutral odors and taste. Bioprocess antifoam market industry is currently facing many advancements with product developments and advancements. Manufacturers are focusing to develop products with high performance, low toxicity, neutral odors & taste, safe to use, silicone free, easily sterilized, and cost effective. On the basis of various products types available we can segment the bioprocess antifoam market into the following:Water-based, Oil-based, Silicone-based, Others (Ethylene Oxide and Propylene Oxide); The above products are segmented on the basis of their derived sources and we can also segment the bioprocess antifoam market on the composition and type of antifoaming agents available:Silicone Polymer, alkoxylated fatty acid ester/vegetable base, polypropylene glycol, polyethylene glycols, silicone oil, polyalkylene glycol
Research shows that antifoams can have different effects on the biological process and hence it is to be ensured before choosing an antifoaming agent for a process. These effects can either be positive such as increasing the volumetric yield of protein, or negative as any growth defect encountered during the production. Silicone based antifoams are projected to be the highest growing market as they offer low surface tension, chemically inert, thermally stable, and completely insoluble in water. The applications of antifoams are not restricted to pharmaceutical industry, as these agents can be actively utilized in food and beverages industry, pulp and paper industry, oil and gas industry, water treatment, detergents, food and beverage, paints and coatings, textile and many others. As the industry is growing it faces various challenges which restraint the market, the use of oil based antifoams and water based antifoams can affect the cell cultures, the silicone based antifoams can also disrupt the culture and hence it is used in small ratios.
Based on geography, the bioprocess antifoam market can be segmented into five major regions: North America’s bioprocess antifoam market, Europe’s bioprocess antifoam market,, Asia-Pacific’s bioprocess antifoam market, Latin America’s bioprocess antifoam market,, and Middle East-Africa’s bioprocess antifoam market. At present, North America observes a leading position in the bioprocess antifoam market, followed by Europe. The major driving factors which have driven the growth of the bioprocess antifoam market, in this region is that the growing demand of the product, high growth of the end use industries, and high manufacturing. Asia-Pacific is anticipated to be an emerging player as various countries like China, Japan and India are emerging with large number of industries, growth in pharmaceutical and biotechnology industries and increased number of domestic players. Key companies have adopted various new strategies such as new product launches, technological advancements as manufacturing companies are moving their focus towards less volatile products which is increasing the growth of the bioprocess antifoam market.
It is anticipated that with in the coming years there will be an entry of various players along with the existing well-established players in the bioprocess antifoam market. Some of the key companies operating in the bioprocess antifoam market are, Accepta, Bluestar Silicones International, Dow Corning Corporation, Air Products and Chemicals Inc, Ashland, Inc, Evonik Industries AG., and Kemira Oyj. These players are anticipated to stretch their operations through mergers and acquisitions in the coming years making a high market impact which help them to increase their market share in bioprocess antifoam market.
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