PLR-SMCR1000 Multiphase Microchannel Reaction System
Introduction: The microchannel reaction system is a continuous flow pipeline microreactor. The size of the microchannel in the reactor is in the micro-millimeter level. Compared with the conventional reactor, the microchannel reactor has higher heat exchange efficiency, high inherent safety, and ease of use. Features such as integrated amplification. It has application potential in strengthening materials in the field of flow chemistry and synthesis of fine chemicals. The PLR-SMCR1000 multiphase microchannel reaction system adopts a modular design, coupled with external equipment to realize functions such as temperature control, spectral monitoring, liquid-solid dispersion, etc., and provides a professional automatic continuous flow photochemical synthesis reaction system. The flow of reactants is used to control the illumination time, so as to achieve the purpose of screening out the best reaction conditions. Application areas: Liquid Homogeneous/Gas-Liquid Heterogeneous (Optical) Synthesis Study on the behavior of Taylor flow gas-liquid two-phase mass transfer process Technical parameter: Three-channel liquid flow: 10 mL/min (single-channel flow fluctuation ±1%FS); One gas phase flow: 20 mL/min (flow fluctuation ±1%FS, pressure adaptation); Liquid holding capacity: 5 mL, 10 mL; Temperature control range: -20~80℃, accuracy: ±0.5℃; Reaction pressure range: maximum pressure > 0.6 MPa; control accuracy: ±5 kPa; Reaction tube diameter: micro-millimeter level, suitable for reactor; Light source type: narrow-band LED, multi-wavelength compatible; Light source power: 10-150 W, adjustable; Peak wavelength: 365 nm, compatible with UVC-Vis (255~520 nm); Inert gas protection: low pressure protection; Liquid flow detection: 0~10 mL/min (with water as the reference, accuracy ±5%, resolution 0.1%) Fluid pressure detection: 0~14 bar, accuracy ±40 mbar
Introduction: The microchannel reaction system is a continuous flow pipeline microreactor. The size of the microchannel in the reactor is in the micro-millimeter level. Compared with the conventional reactor, the microchannel reactor has higher heat exchange efficiency, high inherent safety, and ease of use. Features such as integrated amplification. It has application potential in strengthening materials in the field of flow chemistry and synthesis of fine chemicals. The PLR-SMCR1000 multiphase microchannel reaction system adopts a modular design, coupled with external equipment to realize functions such as temperature control, spectral monitoring, liquid-solid dispersion, etc., and provides a professional automatic continuous flow photochemical synthesis reaction system. The flow of reactants is used to control the illumination time, so as to achieve the purpose of screening out the best reaction conditions. Application areas: Liquid Homogeneous/Gas-Liquid Heterogeneous (Optical) Synthesis Study on the behavior of Taylor flow gas-liquid two-phase mass transfer process