Chemical Reactor Jacketed

Chemical Reactor Jacketed:

The inner layer of the glass reactor is designed for stirring reactions by recirculating the reaction solvent, while the interlayer allows for the circulation of cold or hot liquids. The interlayer can be utilized for high-temperature reactions (up to 300℃) as well as low-temperature reactions (down to -80℃). It also supports evacuated negative pressure reactions, enhancing the safety and convenience of experiments.

The double-layer glass reactor leverages its dual-layer construction effectively. Reaction materials, including solvents, are placed in the middle layer and stirred under normal or negative pressure conditions. The interlayer accommodates a constant temperature solution, either heating or cooling the materials within the reactor at a consistent temperature while providing necessary agitation. This setup facilitates cyclic reactions through the stirring of mediums such as refrigerating liquids, heating water, or oil, making it highly suitable for modern biochemical synthesis and new material experiments.

Different circulating liquids (hot water/hot oil/refrigerated liquid) can flow into the interlayer of the glass reactor. Within the sealed glass container, reactants undergo mixing and reflection under normal or negative pressure, with the transparent design allowing for clear observation of the reaction process. This makes the reactor an ideal pilot plant for biopharmaceuticals, fine chemicals, and novel material synthesis.

Key features include:

·         Constructed from high borosilicate glass (GG-17), offering exceptional mechanical and chemical resistance properties.

·         A unique design incorporating a stainless-steel frame structure with precision-matched connecting parts, ensuring stability and mobility.

·         Frequency conversion speed regulation enabling accurate and variable speeds, with an optional full explosion-proof system.

·         A kettle cavity and jacket free of dead ends, a specially designed kettle cover for solid feeding, and an easy-to-clean design without disassembly. The bottom outlet is ideal for releasing concentrated liquids and trace solids.

·         Complete drainage of heating (or refrigerating) solutions from the interlayer post-reaction, preventing liquid accumulation.

·         Scientifically robust, aesthetically pleasing, and practical design leading the domestic industry.

Technical specifications include:

·         GG-17 high borosilicate glass provides stable mixing during frequency conversion speed regulation, without generating sparks even under high torque.

·         Tetrafluoroethylene sealing components maintain a vacuum around -0.095mpa, providing precise sealing.

·         Alloy steel mechanical seals and PTFE connection ports provide long-lasting, high-precision sealing.

·         The Pt100 sensor probe delivers precise temperature measurements with minimal error, thereby enhancing operational efficiency.

·         Teflon discharge valves with movable interfaces designed for efficient discharge.

·         Movable stainless-steel frame with a five-port reaction kettle cover and complete glassware for reflux, liquid filling, and temperature measurement.

·         AC gear reducer motor with low noise and strong torque, using Japanese technology.

·         PTFE stirring paddles for liquids of low to high viscosity.