Introduction: The single-mode focused microwave synthesizer provides an advanced and reliable tool for microwave synthesis. Its highly focused microwave energy field density ensures the uniformity of microwave heating and the uniformity and reproducibility of experiments. Compared with traditional multi-mode microwave The reactor has unparalleled advantages. Widely used in pharmaceutical research, organic chemical synthesis, biomedicine, material synthesis, microwave extraction, academic research, etc. University research institutes conduct experiments in chemistry and biology, and are suitable for liquid heating and refluxing, microwave synthesis, microwave sample dissolution, microwave hydrolysis, microwave catalysis and microwave extraction. Features: 1. Closed high-pressure single-mode microwave (TM01) chemical platform 2. Support closed reaction system within 300˚C / 10MPa 3. Support super microwave mode and process control of applied pressure 4. Support 500ml ultra-high pressure synthesis tank 5. Support electromagnetic stirring 6. Intelligent control system, temperature and power closed-loop controllable 7. The experimental data curve is displayed and the data can be exported 8. Other functional products of MKM cylindrical single-mode microwave platform: atmospheric pressure single-mode synthesis (H1A), multi-parallel (H1F), single-mode high-pressure synthesis (H1B) Technical parameter: microwave system 1. Microwave power: rated power 500W/2450MHz, stepless non-pulse continuous microwave power output 2. Design of microwave reaction cavity: ①304 stainless steel is welded together to form a cylindrical single-mode inner cavity, which is strong and reliable ②The inner surface is coated with multi-layer Teflon anti-corrosion coating, which is suitable for use in acid-base corrosion and high-temperature environments, and is easy to wipe and clean 3. Single-mode cavity size: about 1L, suitable for process assembly of ultra-high pressure synthesis vessels 4. Set up interlayer water cooling structure to meet the high temperature and high pressure control process functional system 1. Reaction system: 500ml ultra-high pressure synthesis tank, closed reaction system, supports temperature measurement, stirring, and external pressure functions 2. Temperature and pressure control: 3. Temperature range: ① Temperature control 0~260℃, pressure control 0~5MPa (external pressure process: 300˚C / 10MPa); ②Adopt optical fiber temperature measurement method 4. Material control: magnetic stirring mode 5. Magnetic stirring: Teflon wrapped rotor, magnetic drive, adjustable speed 6. Process monitoring: internal lighting auxiliary color video monitoring (optional) Control System 1. Using PLC programming control: good human-computer interaction, integrated control terminal, temperature, pressure and power are all intelligently controllable 2. Touch screen dialogue window, easy and fast operation, real-time display of time, temperature, power curve, data can be read and stored 3. Multiple sets of program memory functions, which can store, modify, call, delete and other system operations on the program security system 1. Multiple interlocking structure of the top cover, open the door and power off to protect the operator 2. The top cover adopts λ/4 high impedance microwave anti-current suppression structure to ensure the health and safety of operators. Microwave leakage: <5mW/cm2 (better than the national standard) Machine description 1. Equipment power supply: 220Vac / 50Hz, power consumption of the whole machine: 1300W 2. Appearance size: main body about: 615×450×355mm (width×height×depth) 3. Equipment water supply: cold water system 4. Equipment weight: 50kg
Introduction: The single-mode focused microwave synthesizer provides an advanced and reliable tool for microwave synthesis. Its highly focused microwave energy field density ensures the uniformity of microwave heating and the uniformity and reproducibility of experiments. Compared with traditional multi-mode microwave The reactor has unparalleled advantages. Widely used in pharmaceutical research, organic chemical synthesis, biomedicine, material synthesis, microwave extraction, academic research, etc. University research institutes conduct experiments in chemistry and biology, and are suitable for liquid heating and refluxing, microwave synthesis, microwave sample dissolution, microwave hydrolysis, microwave catalysis and microwave extraction.
