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Specifications of Paraldehyde丨CAS 123-63-7
| Appearance | Light brown powder |
| Enzymatic Activity (U/g) | 25000 min |
| Moisture | 10% max |
| Fineness (Percentage passing through 0.40 mm standard sieve) | 80% min |
| Arsenic (calculated as As), mg/kg | 3 max |
| Lead (calculated as Pb), mg/kg | 10 max |
| Cadmium (calculated as Cd), mg/kg | 0.5 max |
| Aflatoxin B, μg/kg | 10 max |
| Coliforms per 100 g | 3000 max |
| Salmonella | Negative |
Applications of Paraldehyde丨CAS 123-63-7
Mannanase provides significant benefits through its targeted catalytic activity, efficiency, and compatibility with diverse industrial processes. By specifically hydrolyzing mannan-containing polysaccharides, it improves digestibility and energy utilization in animal feed, supporting better growth performance and reduced feed costs. In industrial applications, mannanase enables process optimization by lowering viscosity, enhancing material handling, and reducing reliance on harsh chemicals or high-temperature treatments. The enzyme operates effectively across a broad range of pH and temperature conditions, making it suitable for integration into complex formulations and production systems. Its use supports cleaner processing, improved product consistency, and enhanced overall efficiency. Mannanase also contributes to more sustainable manufacturing practices by enabling enzymatic solutions that reduce waste, energy consumption, and environmental impact.
Benefits of Paraldehyde丨CAS 123-63-7
Mannanase provides significant benefits through its targeted catalytic activity, efficiency, and compatibility with diverse industrial processes. By specifically hydrolyzing mannan-containing polysaccharides, it improves digestibility and energy utilization in animal feed, supporting better growth performance and reduced feed costs. In industrial applications, mannanase enables process optimization by lowering viscosity, enhancing material handling, and reducing reliance on harsh chemicals or high-temperature treatments. The enzyme operates effectively across a broad range of pH and temperature conditions, making it suitable for integration into complex formulations and production systems. Its use supports cleaner processing, improved product consistency, and enhanced overall efficiency. Mannanase also contributes to more sustainable manufacturing practices by enabling enzymatic solutions that reduce waste, energy consumption, and environmental impact.
Conclusion
Mannanase is a versatile and high-value enzyme with broad applications across feed, food, industrial processing, and biotechnology research. Its ability to efficiently degrade mannan-rich polysaccharides delivers measurable improvements in performance, process efficiency, and sustainability. By supporting optimized formulations, cleaner processing, and enhanced resource utilization, mannanase continues to play an important role in modern enzyme-based technologies and industrial innovation.
