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A foaming agent is a material such as a surfactant or a blowing agent that facilitates the formation of foam. A surfactant, when present in small amounts, reduces surface tension of a liquid (reduces the work needed to create the foam) or increases its colloidal stability by inhibiting coalescence of bubbles.[1] A blowing agent is a gas that forms the gaseous part of the foam.
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Sodium laureth sulfate, or sodium lauryl ether sulfate (SLES), is a detergent and surfactant found in many personal care products (soaps, shampoos, toothpastes, etc.). It is an inexpensive and effective foamer. Sodium lauryl sulfate (also known as sodium dodecyl sulfate or SDS) and ammonium lauryl sulfate (ALS) are commonly used alternatives to SLES in consumer products.[2]
Surfactants which are less effective at foam production, may have additional co-surfactants added to increase foaming. In which case, the co-surfactant is referred to as the foaming agent. These are surfactants used in lower concentration in a detergent system than the primary surfactant, often the cocamide family of surfactants. Cocamide foaming agents include the nonionic cocamide DEA[3] and cocamidopropylamine oxide,[4] and the zwitterionic cocamidopropyl betaine and cocamidopropyl hydroxysultaine.[5]
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There are two main types of blowing agents: gases at the temperature that the foam is formed, and gases generated by chemical reaction. Carbon dioxide, pentane, and chlorofluorocarbons are examples of the former. Blowing agents that produce gas via chemical reactions include baking powder, azodicarbonamide, titanium hydride, and isocyanates (when they react with water).
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Foaming is the formation of bubbles or foam on the surface of the liquid or throughout the solution. In cleaning applications, the formation of foam can offer several benefits, such as increased contact time, enhanced visibility and lubrication with the surface intended to be cleaned. However, in spray tank mixtures these features are not necessary for the application of herbicides. It is therefore important to understand why foaming might occur.
Foaming can be problematic for spray tank mixtures because it can reduce the effectiveness of the spray application and increase the risk of off-target movement of herbicides. They are specific ways in which foaming can be problematic.
It is basically impossible to eliminate foaming completely. Therefore, it must be managed in cases where it has a significant potential to become problematic. To reduce the impact of foam on spray tank mixtures, pesticide applicators may use anti-foaming agents or low-foam surfactants. These products can reduce the formation of foam and improve the performance of the herbicide application.
Defoamers or Antifoaming agents can be formulated within the adjuvant formulation or can be added directly to a tank mix to manage foaming. Its worth noting that the selection of an appropriate defoamer must consider the specific process, as effectiveness can vary based on the liquids pH, temperature, and the presence of other ingredients or chemicals. Additionally, defoamers should be used at the right concentration; too much can cause the product to destabilize or even induce foaming, while too little might not suppress foam effectively. Therefore, it is important to use the correct amount of anti-foaming agent. Brewer International produces products with antifoaming ingredients that reduce the formation of foaming, such as Brewer 80-20, Brewer 90-10, Big Sur 90, Big Wet, Silnet 200, Silenergy, Sun control and Sun Energy. In addition, we provide our Brewer Defoamer that can be added directly to a tank mixture.
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