China's food companies are increasingly entering the global market, and to stay competitive, they must focus on improving product quality and ensuring health standards at the production site. Implementing a robust food hygiene and quality assurance system is essential. In this context, advanced dynamic air disinfection machines play a crucial role in maintaining cleanliness and safety throughout the production process. Disinfection equipment is a vital component in the food packaging industry. These systems eliminate harmful microorganisms from products, packaging materials, and related components, bringing them within acceptable limits. For liquid products like fruit puree, raw juice, concentrated juice, milk, or similar beverages, a continuous sterilization process is often used. The feed pump is the core of this system, responsible for transferring materials safely and efficiently. KSB’s Etabloc and Etachrom pumps are commonly used as supporting equipment due to their high efficiency, low energy consumption, and minimal maintenance costs. Preventing secondary contamination from sterilization machines is critical. Food packaging is an essential part of the food supply chain, and sterilization plays a key role in protecting products from biological, chemical, and physical contaminants during storage and transportation. Ensuring that the packaging environment remains clean helps maintain product integrity and extends shelf life, which directly impacts sales and profitability. The air quality in food packaging workshops must meet strict standards. Poor air quality can lead to bacterial contamination, reducing product shelf life and limiting distribution channels. In severe cases, it may even result in product recalls or export rejections, causing serious financial and reputational damage to companies. Dynamic sterilization technology offers a safer and more effective alternative to traditional methods. While many companies still rely on static techniques such as ultraviolet light, chemical sprays, or ozone treatment, these methods have limitations. Factors like humidity, temperature, and ozone concentration can affect their effectiveness, and UV lamps tend to degrade over time. Dynamic sterilizers, on the other hand, operate continuously and safely, even when workers are present. They help maintain a clean environment in packaging areas, reducing the risk of bacterial contamination and enhancing food safety. This technology is particularly useful in cooling and packaging zones, where products come into direct contact with air. Bacteria in the air can settle on food surfaces, leading to spoilage and health risks. Food safety is a complex process that requires both manual and automated sterilization efforts. A combined approach—using dynamic sterilizers during the day and UV or ozone systems at night—can effectively control bacterial growth and prevent secondary contamination. According to China Packaging Network editors, while packaging itself serves as a barrier against contamination, sterilization machines are essential for preventing post-packaging microbial spread. Continuous investment in updating and improving sterilization equipment is necessary to ensure long-term food safety and consumer trust.
Our main products are The Biomedical Matrials: Poly (L-latic acid) PLLA, Poly(D-lactic acid) PDLA, Poly(DL-latic acid) PDLLA, Polycaprolactone PCL and their copolymers such as PLGA, PDLGA, PLCL, PEG-PLLA, PEG-PDLLA ,PEG-PLGA,PEG-PDLGA etc.
We also can provide you PLA/PCL/PLGA/PDLGA microspheres.The particle size of microspheres is from 5 microns to 30 microns.
Medical grade polymers are a type of plastic material that are specifically designed and manufactured to meet the stringent requirements for use in medical applications. These polymers offer several advantages over traditional materials such as metals, ceramics, and glass in terms of their biocompatibility, versatility, and cost-effectiveness. Some of the key advantages and applications of medical grade polymers include:
Biocompatibility: Medical grade polymers are designed to be biocompatible, which means that they do not cause an adverse reaction or toxicity when they come into contact with living tissue. This property makes them ideal for use in medical implants, drug delivery systems, and other medical devices.
Versatility: Medical grade polymers are highly versatile and can be molded into a variety of shapes and sizes. They can also be modified with different additives to enhance their properties such as flexibility, strength, and thermal stability. This versatility allows them to be used in a wide range of medical applications.
Cost-effectiveness: Medical grade polymers are generally more cost-effective than other materials such as metals and ceramics. This is because they can be manufactured in large quantities using injection molding or other high-volume production techniques.
Resistance to corrosion and wear: Medical grade polymers are highly resistant to corrosion and wear, which makes them ideal for use in medical devices that are exposed to bodily fluids and other harsh environments.
Some of the key applications of medical grade polymers include:
Overall, medical grade polymers offer several advantages over traditional materials in terms of their biocompatibility, versatility, and cost-effectiveness. These properties make them ideal for use in a wide range of medical applications.
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Prevent secondary pollution sterilizer to fully protect food packaging