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Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type."
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RS2000/RS2100 has three usage modes in the laboratory, and each mode requires different accessories.
1. The first mode uses an immersed long probe that goes deep down to the liquid level of the reaction system to monitor each reaction component. Depending on the reaction vessel, reaction conditions, and system, different specifications of probes are configured.
2. The second mode involves using a flow cell to connect a bypass probe for online monitoring, which is suitable for reactors like microchannel reactors. Various probes are configured based on the specific reaction vessel and conditions.
3. The third mode utilizes an optical probe directly aligned with the side window of the reaction vessel for reaction monitoring.
RS2000/RS2100 has three usage modes in the laboratory, and each mode requires different accessories.
1. The first mode uses an immersed long probe that goes deep down to the liquid level of the reaction system to monitor each reaction component. Depending on the reaction vessel, reaction conditions, and system, different specifications of probes are configured.
2. The second mode involves using a flow cell to connect a bypass probe for online monitoring, which is suitable for reactors like microchannel reactors. Various probes are configured based on the specific reaction vessel and conditions.
3. The third mode utilizes an optical probe directly aligned with the side window of the reaction vessel for reaction monitoring.
RS2000/RS2100 has three usage modes in the laboratory, and each mode requires different accessories.
1. The first mode uses an immersed long probe that goes deep down to the liquid level of the reaction system to monitor each reaction component. Depending on the reaction vessel, reaction conditions, and system, different specifications of probes are configured.
2. The second mode involves using a flow cell to connect a bypass probe for online monitoring, which is suitable for reactors like microchannel reactors. Various probes are configured based on the specific reaction vessel and conditions.
3. The third mode utilizes an optical probe directly aligned with the side window of the reaction vessel for reaction monitoring.
RS2000/RS2100 has three usage modes in the laboratory, and each mode requires different accessories.
1. The first mode uses an immersed long probe that goes deep down to the liquid level of the reaction system to monitor each reaction component. Depending on the reaction vessel, reaction conditions, and system, different specifications of probes are configured.
2. The second mode involves using a flow cell to connect a bypass probe for online monitoring, which is suitable for reactors like microchannel reactors. Various probes are configured based on the specific reaction vessel and conditions.
3. The third mode utilizes an optical probe directly aligned with the side window of the reaction vessel for reaction monitoring.
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Online Monitoring
Data acquisition
Data Processing
Research Methods
Data Processing
Research Methods
Li-ion battery industry:
Research on the synthesis process of bis(fluorosulfonyl)amide
Biopharmaceutical industry
Drug crystal form research and consistency evaluation
Quality Control in Biofermentation Engineering
Fine chemical industry News
Research on the process of producing furfuryl alcohol by hydrogenation reaction of furfural
Process control of bioenzyme catalytic reactions of nitrile compounds
A certain ultra-low temperature nitrification reaction
Research on o-xylene nitration reaction process
.... and more
Detection of Components in Reaction and Emitted Gases of Fluorine Materials:
See More
Quantitative Analysis of Different Elements in Petrochemical Natural Gas:
Monitoring of F2, N2, HF, and Other Components in the Fluorination Process:
Detection of Impurity Gases in Electronic Special Gases:
Monitoring of Gas Components in Sulfonyl Fluoride Synthesis:
Remote Online Monitoring of HCN:
Diego
Model | RS2000 | RS2000A | RS2000T | RS2000TA | RS2100 | RS2100H |
Features | High sensitivity | Cost-effective | High sensitivity | Cost-effective | High applicability | High applicability, high sensitivity |
Number of detection channels | 1, single channel | 1, single channel | 1, single channel | 1, single channel | 1, single channel | 1, single channel |
Dimensions | 375 mm (width) × 360 mm (depth) × 185 mm (height) | 75 mm (width) × 360 mm (depth) × 185 mm (height) | 496 mm(width)× 312 mm(depth)× 185 mm(height) | 496 mm(width)× 312 mm(depth)× 185 mm(height) | 375 mm (width) × 360 mm (depth) × 185 mm (height) | 300 mm (width) × 356 mm (depth) × 185 mm (height) |
Weight | ≤10 kg | |||||
Probe | In standard configuration, one 1.3 m non-immersed fiber optic probe (PR100) and one 5 m immersed probe (PR200-HSGL), optional configurations include other probe models or flow cells. | |||||
Software features | 1.Online Monitoring: Continuous real-time collection of single-channel signals, providing real-time substance content and trend changes, enabling intelligent analysis of unknown components during the reaction process, 2.Data Analysis: Capable of processing data through smoothing, peak finding, noise reduction, baseline subtraction, difference spectra, etc, .3.Model Establishment: establishes a quantitative model using known content samples and automatically builds a quantitative model based on real-time data collected during the reaction process. | |||||
Wavelength accuracy | 0.2 nm | |||||
Wavelength stability | 0.01 nm | |||||
Connectivity interface | USB 2.0 | |||||
Output Data format | spc standard spectrum, prn, txt and other formats are optional | |||||
Power supply | 100 ~ 240 VAC,50 ~ 60 Hz | |||||
Operating temperature | 0 ~ 40 ℃ | |||||
Storage temperature | -20 ~ 55 ℃ | |||||
%Relative humidity | 0~90%RH | |||||
Power consumption | 50 W | |||||
Pre-heating time | <5 min | |||||
Communication protocols | Modbus |
Model | RS1000 Handheld Raman Identifier | RS1500 Handheld Raman Identifier | |||
Description | JINSP RS1000 handheld identifier is the new generation of handheld detection equipment designed for the identification of unknown materials. It is used to quickly identify drugs, precursor chemicals, dangerous liquids, explosives, jewelry, jade, industrial raw materials, etc. The device is compact and lightweight, weighing less than 500g, making it suitable for single-hand operation and easy portability. The built-in safety inspection module can detect the material without any variation, ensuring the detection of dark black material without ignition risk. It has a 5-inch high-sensitive touch screen with a built-in 13-million HD camera along with built-in WiFi, 4G, and Bluetooth transmission module, providing an intelligent operation experience. | JINSP RS1500 Handheld Raman Identifier uses Raman spectroscopy technology, combined with intelligent algorithms and rich spectrum library, to quickly and nondestructive identify suspicious materials at sites, such as chemical weapon, toxic, explosives, drugs and precursors, etc. The RS1500 directly gives the name and detailed information of the suspicious materials, helps operators quickly understand its characteristics. The RS1500 is applicable to customs supervision, drug prohibition, emergency management, national defense, etc. The RS1500 uses 1064nm laser, which can effectively reduce fluorescence interference. Therefore, the detection results are more accurate than those of the previous generation, which use 785nm or 830nm laser. |