Sterile Starch
1. Precision production line of German origin.
2. Exquisite craftsmanship from Japan.
3. Address diverse requirements.
4. Significantly inhibits microbial growth and extends the period of reduced microbial levels in the system.
The sterilization method targets the starch washing and dehydration processes integral to corn starch production. It involves thorough rinsing of equipment with clean water to remove residues, followed by the preparation of a nisin aqueous solution. This solution, typically prepared at concentrations ranging from 20 to 200 ppm (preferably 120 ppm), is ten pumped sequentially through the starch washing and dehydration equipment. The sterilizing liquid effectively permeates the system, ensuring comprehensive disinfection.
Advantages
The sterilization method for corn starch production systems offers several distinct advantages over traditional disinfection methods. Firstly, it effectively controls microbial growth throughout the production process, ensuring that microorganism levels in the final starch product remain exceptionally low. This capability not only meets regulatory standards but also enhances product quality and shelf life.
Moreover, the method extends the duration of reduced microbial levels within the system, typically by about one month compared to conventional liquid caustic soda disinfection. This reduces the frequency of cleaning and disinfection cycles, thereby saving energy and operational costs.
Additionally, the use of nisin as the primary sterilizing agent provides a clean and efficient alternative to harsh chemical disinfectants. It minimizes corrosion risks to production equipment, thereby prolonging equipment lifespan and reducing maintenance requirements. Overall, the sterilization method represents a significant advancement in ensuring product safety, quality, and operational efficiency in corn starch production systems.
Product Parameter
Item | USP/BP/EP | CP |
Identification | Conforms | |
pH | 4.0-7.0 | 4.5-7.0 |
Loss on drying (%) | ≤15 | ≤14 |
Residue on Ignition/ Sulfated ash (%) | ≤0.6 | ≤0.6 |
Iron(%) | ≤0.001 | ≤0.001 |
Oxidizing substances(%) | ≤0.002 | ≤0.002 |
Sulfur dioxide (%) | ≤0.005 | ≤0.004 |
Application
Starch is one of the
most traditional
excipients used for solid
dosage formulations.
Depending on the
application, maize
starch acts as a diluent,
disintegrant or binder.
Native starch is a classic tablet
disintegrant whereas pregelatinised
starch is often used as a binder. Starch
also offers a wide range of possibilities
and can be one of the preferred
functional excipients of the future. It
can undergo a wide range of physical
or chemical modification in order to
modify its properties.
High-Quality Origin
Situated in prime agricultural regions, our production benefits from superior cultivation environments, combining mechanization and manual expertise to ensure the harvesting of the freshest raw materials.
Production Process
Our production process integrates advanced, fully automated central control systems. From raw material input to final product packaging, every stage undergoes automated precision control, guaranteeing consistent product quality. Key steps include crushing, extraction, filtration, concentration, purification, drying, grinding, testing, meticulous packaging, and efficient transportation.
Customer Approval
We have garnered widespread customer acclaim over the years by consistently delivering products of exceptional quality. Our commitment to customer satisfaction is reflected in the positive feedback and trust we receive from our clients.
After-Sales Service
Complementing our high-quality products is our comprehensive after-sales service. We prioritize customer support, ensuring prompt assistance and solutions to meet our clients' needs throughout their product usage experience.
Company Profile
Certificate
