RS2000-4 multi-channel online Raman analyzer Introduction: Chemical/pharmaceutical/material process development and production require quantitative analysis of components. Usually, laboratory offline analysis techniques are used. After the sample is taken to the laboratory, instruments such as chromatography, mass spectrometry, and nuclear magnetic resonance spectroscopy are used to provide information on the content of each component. The detection time is long and the sampling frequency is low, which cannot meet many real-time monitoring requirements. Our company provides online monitoring solutions for chemical, pharmaceutical, material process research and production, which can perform in-situ, real-time, continuous, and rapid online monitoring of the content of each component in the reaction. characteristic: 1. Four channels can be switched for detection, displaying real-time trends of changes in raw materials and products 2. Can withstand reaction conditions such as strong acid and alkali, strong corrosiveness, high temperature and high pressure 3. Real time response in seconds, no need to wait, providing timely analysis results 4. No sampling or sample processing is required, and in-situ monitoring does not interfere with the reaction system 5. Continuous monitoring to quickly determine the endpoint of the reaction and prompt abnormal reactions Technical parameters: Model: RS2000-4 Number of detection channels: Four channel switching detection Host size: 496mm (length) x 312mm (width) x 185mm (height) Host weight: not exceeding 10 kg Probe: Comes standard with one 1.3m non immersed fiber optic probe (PR100), 4 5 m immersion probes (PR200-HSGL), optional with other types of probes or flow cells Software functions: 1. Online monitoring: capable of continuous real-time acquisition of multi-channel signals, 2. Real time provision of substance content and change trends can be achieved during the reaction process 3. Intelligent analysis of unknown components 2. Data analysis: can smooth and peak search data Noise reduction, baseline removal, difference spectrum processing, etc 4. Model establishment: A quantitative model can be established using samples with known concentrations; 5. Quantitative models can also be automatically established based on real-time collected reaction process data Wavelength accuracy: 0.2 nm Wavelength stability: better than 0.01 nm Communication interface: USB 2.0 Data output format: SPC standard spectrum, PRN, TXT and other formats are optional Power supply: 100~240 VAC, 50~60 Hz Working temperature: 0~40 ℃ Storage temperature: -20~55 ℃ Relative humidity: 0~90% RH Equipment power: 50W Preheating time:<5 minutes Communication protocol: Modbus
Introduction: Chemical/pharmaceutical/material process development and production require quantitative analysis of components. Usually, laboratory offline analysis techniques are used. After the sample is taken to the laboratory, instruments such as chromatography, mass spectrometry, and nuclear magnetic resonance spectroscopy are used to provide information on the content of each component. The detection time is long and the sampling frequency is low, which cannot meet many real-time monitoring requirements. Our company provides online monitoring solutions for chemical, pharmaceutical, material process research and production, which can perform in-situ, real-time, continuous, and rapid online monitoring of the content of each component in the reaction.
