BK-F1600 Crude Fiber Analyzer: A Reliable Solution for Nutritional Analysis Laboratories
The BK-F1600, developed by BioBase, is a crude fiber analyzer specifically designed for laboratories operating in the fields of animal feed, food processing, dairy industry, and tobacco analysis. This device enables high-throughput fiber determination using various methods: CF (crude fiber), NDF (neutral detergent fiber), ADF (acid detergent fiber), and ADL (lignin). It combines performance and user-friendly operation through an intuitive interface.
The filtration system is based on three-dimensional filter bags, allowing closed digestion, constant temperature precision, and a significant reduction in chemical reagent usage. The unit does not require water cooling, minimizing installation constraints. The reaction chamber is made of a material resistant to high temperatures, high pressure, and chemical corrosion, ensuring long-term durability.
Its large color touchscreen provides an intuitive interface. Up to 50 experimental protocols can be stored, with multi-user management, fingerprint-secured login, and customizable access permissions. The system also performs self-diagnostics of functional components, simplifying daily maintenance.
Advanced safety features include internal pressure monitoring, overheating and overpressure alarms, anti-dry heating protection, and precise temperature control (±0.2 °C). These functions ensure analysis stability and user protection.
The BK-F1600 can process up to 24 samples per cycle with high repeatability: less than 5% variation for low fiber content (<10%) and less than 3% for higher concentrations (>10%). During an 8-hour working day, the unit can analyze up to 96 crude fiber samples and up to 120 samples for NDF/ADF/ADL, significantly optimizing laboratory productivity.
With features such as automatic result calculation, direct printing, anti-foaming bubble prevention, and automatic fault detection, the BK-F1600 stands out as an essential tool for laboratories seeking precision, efficiency, and traceability in fiber analysis.