ε-Polylysine hydrochloride Wholesaler,Exporter


Advancements in the production process of ε-polylysine hydrochloride mainly focus on the following aspects:

1. Raw Material Selection and Optimization:

Through research, economical and readily available chemicals, such as caprolactam and polyether diamine, have been selected as reaction materials. Appropriate catalysts are added to achieve efficient production.

2. Preparation Process Optimization:

By altering process parameters such as raw material ratios, reaction temperature, and reaction time, the preparation process of ε-polylysine has been optimized. This optimization ensures high-efficiency production and excellent product performance.

3. Product Characterization and Quality Control:

Techniques like infrared spectroscopy, nuclear magnetic resonance, and thermogravimetric analysis are used to analyze the structure and properties of the resulting ε-polylysine, ensuring product quality and stability.

4. Research on New Extraction Processes:

Building on previous research, new extraction processes for ε-polylysine hydrochloride (ε-PL) have been developed, such as the in situ extraction process. This process involves steps like appropriate dilution, resin adsorption, elution, desalination, and decolorization, simplifying production, enhancing efficiency, and reducing costs.

5. Safety and Stability:

During production, emphasis is placed on the safety and stability of the product. For example, by controlling fermentation conditions and purification processes, the safety of ε-polylysine hydrochloride in food is ensured, and its stability is enhanced.

6. Environmentally Friendly Production:

With increasing environmental awareness, the production of ε-polylysine hydrochloride also emphasizes environmental protection. Measures such as using eco-friendly raw materials, reducing energy consumption, and minimizing wastewater discharge are implemented to achieve environmentally friendly production.

7. Automation and Intelligence:

With the development of automation and intelligent technology, the production of ε-polylysine hydrochloride is gradually becoming automated and intelligent. The introduction of advanced production equipment, control systems, and detection technologies has improved production efficiency, reduced costs, and enhanced product quality.

Advancements in the production process of ε-polylysine hydrochloride include raw material selection and optimization, preparation process optimization, product characterization and quality control, research on new extraction processes, safety and stability, environmentally friendly production, and automation and intelligence. These advancements have not only improved product quality and performance but also promoted the development of the food industry.