With the advancement of industries and the increasing environmental protection requirements, the demand for defoamers has expanded beyond just "defoaming" to include "no residue, no interference, and long-term stability".With the advancement of industries and the increasing environmental protection requirements, the demand for defoamers has expanded beyond just "defoaming" to include "no residue, no interference, and long-term stability". The emergence of non-foaming defoamers has been driven by their unique advantages, gradually replacing traditional defoamers and being applied in various industries. 
 The emergence of non-foaming defoamers has been driven by their unique advantages and has gradually replaced traditional defoamers, being applied in various industries. 
The core advantages of non-foaming defoamers are as follows: Firstly, they do not produce foam throughout the process, and do not generate foam themselves, thus avoiding secondary pollution. Secondly, they are highly efficient and long-lasting.The core advantages of non-foaming defoamers are as follows: Firstly, they achieve complete non-foaming throughout the process, without generating their own foam and thus avoiding secondary pollution. Secondly, they are highly efficient and long-lasting. A small amount of addition can quickly break the foam, while forming a long-lasting anti-foaming barrier, reducing the frequency of addition and lowering costs. Thirdly, they are safe and compatible. A small amount of addition can quickly break the foam and simultaneously form a long-lasting anti-foaming barrier, reducing the frequency of addition and lowering costs. Thirdly, they are safe and compatible. They are resistant to acids and alkalis, high-temperature resistant, and suitable for various complex systems. They do not affect the original performance of the product and comply with green production standards. 
 They are resistant to acids and alkalis, high-temperature resistant, and can be adapted to various complex systems without affecting the original performance of the product, and comply with green production standards. 
Its application scenarios cover both industrial and daily use, including in the chemical field, where it is used for polymerization reactions, distillation and extraction, to prevent foaming from boiling over; in the environmental protection field, it helps suppress foaming in sewage treatment aeration tanks, improving treatment efficiency; in the food and medicine field, it serves as an emulsifier or defoamer, ensuring product purity and safety; in the building materials field, it is used in concrete mixing and latex paint production, preventing product defects caused by foaming.Its application scenarios cover both industrial and daily use, including in the chemical field, where it is used for polymerization reactions, distillation and extraction, to prevent foaming from boiling over; in the environmental protection field, it helps suppress foaming in sewage treatment aeration tanks, improving treatment efficiency; in the food and medicine fields, it serves as an emulsifier or defoamer, ensuring product purity and safety; in the building materials field, it is used in concrete mixing and latex paint production, preventing product defects caused by foaming. With its "invisible and efficient" characteristics, it has become an important driving force for industrial upgrading and quality improvement, entering more specialized scenarios. With its "invisible and efficient" characteristics, it has become an important driving force for industrial upgrading and quality improvement, entering more specialized scenarios.