The latest developed defoaming powder has achieved significant breakthroughs in performance: firstly, it has faster defoaming speed and stronger defoaming ability; Secondly, it can maintain stable performance within a wider range of temperature and pH; Thirdly, some products have self-healing functions and can continuously play a defoaming role during use; Fourthly, specialized defoamers have been developed for specific industries, such as biomedicine.

Through in-depth research, the mechanism of action of defoaming powder has been revealed: its active ingredients can quickly penetrate the bubble membrane, reduce the surface tension of bubbles, and form a stable thin film covering the surface of bubbles, preventing bubble regeneration. In addition, some defoaming powders can promote bubble coalescence and rupture through adsorption, bridging, and other methods.

With the continuous deepening of research and development, defoaming powder has been widely used in various fields such as food processing, coatings and paints, petrochemicals, water treatment, etc. Meanwhile, its excellent adaptability and customizability enable it to meet the specific needs of different industries and processes.

From a cost-benefit perspective, although some high-performance defoamers are relatively expensive, the comprehensive benefits they bring in terms of product quality improvement, production efficiency improvement, and environmental protection far outweigh their cost investment. Therefore, in the long run, the use of defoaming powder has significant economic and social value.

Looking ahead to the future, the research and development of defoaming powders will deepen in the following directions: exploring new defoaming mechanisms, and developing defoaming powders with higher defoaming efficiency and wider applicability. By means of molecular design, nanotechnology, and other methods, the structure and properties of defoaming powder are optimized to achieve excellent results even under extreme conditions. Continue to promote the research and development of green defoaming powder, using more natural, renewable or biodegradable raw materials to reduce its impact on the environment. At the same time, pay attention to the life cycle assessment of materials to ensure that the entire process from production to disposal meets environmental requirements. Develop intelligent defoaming powder and its supporting system by combining technologies such as the Internet of Things, big data, and artificial intelligence. By monitoring the bubbles in the liquid in real-time, automatically adjusting the amount and timing of defoaming powder addition, precise control can be achieved, further improving construction efficiency and product quality.

In addition to the basic defoaming function, future defoaming powders may also have other additional functions, such as thickening, antibacterial, and anti-corrosion. This trend of multifunctionality will meet the diversified needs of different industries for products and enhance their market competitiveness. Strengthen the interdisciplinary integration of chemistry, materials science, engineering, environmental science, and other fields to jointly promote the innovative development of defoaming powder technology. Through interdisciplinary collaboration, more cutting-edge technologies and concepts can be introduced, providing more possibilities for the research and application of defoamers.

In summary, with the continuous advancement of technology and the increasing awareness of environmental protection, defoaming powder, as an important chemical additive, will play an important role in a wider range of fields. In the future, we look forward to seeing more innovative, environmentally friendly, and efficient defoaming powder products emerge, contributing to the development of various industries.