EMC-1 Single-Channel Catalyst Evaluation Device (Gas-Liquid-Solid Reaction)
EMC-1 Single-Channel Automatic Catalyst Evaluation Device
Half the Efforts, Twice the Performance.
Highly Efficient Assistant for Catalyst R&D, Screening and Evaluation
EMC-1 single-channel automatic catalyst evaluation device is designed for catalyst development and screening, significantly reducing time and labor. With microreaction technology at its core and fully automated process control, it ensures optimal reaction efficiency. This compact system features innovative control technology and offers a range of configurations and options for catalyst screening. By using an interactive software control system to conduct a series of experiments, it delivers high-precision results with excellent reproducibility in real time.
Can be monitored and controlled remotely using a mobile phone (Android), with no on-site staff needed
Fine-tuned subdivision drive with pressure control accuracy of less than 0.1 MPa; Non-linear fitting technology ensures accurate positioning of preset pressure
An automatic pressure reducing valve (optional) and an automatic back pressure valve work together to manage the entire process of adjusting the pressure in the reaction system
One-key operation mode allows to set the reaction conditions and press the start button to establish the system's reaction conditions
Intelligent management software integrates with inline chromatography, enabling automatic management of reaction conditions and sample content while providing analytical conclusions
Gas-Liquid-Solid Reaction Model
Compact dimensions (DxWxH: 450x608x508, mm)
Continuous high-pressure syringe pump with a minimum flow rate accuracy of 0.001 mL/min
Gas-liquid separation occurs continuously in a high-pressure system with a separator volume of 3.5 mL
The total liquid retention volume is small (less than 10 mL) and the equilibrium time is short
Equipped with a gas-liquid micromixer that ensures effective mixing
The steady flow valve at the liquid outlet automatically adjusts its opening size based on the liquid level detected by the tolerance liquid level sensor (accuracy: ±0.05 mL), allowing for continuous outflow of liquid products
A 16- or 100-slot automatic sample collector can be connected in series to automatically gather products into sample vials for further measurement and analysis
An optional automatic sample collector can perform inline sample dilution to prevent exceeding the detection range due to excessively high sample concentrations
| Module | Specifications | |
| Pump | Type: Dual-syringe high-pressure pump Flow rate: 10.001- 3.000 mL/min Mateiral: 316L+ borosilicate glass Accuracy: ±1 % Repeatability: RSD<0.3% | |
| Gas Mass Flow Meter | Gas flow rate: 2-100 sccm (100 sccm), 4-200 sccm (200 sccm), 10-500 sccm (500 sccm), 0.02-1 slm (1 slm) Accuracy: ±1 % F.S. Repeatability: RSD<0.5% F.S. Suitable gas: H2, N2, CO, CO2, NH3 | |
| Reaction Column | Column volume:3 mL (ID: 4.6 mm), 5 mL (ID: 5.9 mm), 10 mL (ID: 8.3 mm) Column OD: 18 mm Column length: 185 mm Column material: C276 | |
| Gas-Liquid Separator | Volume: 3.5 mL Liquid surface level accuracy: ±1 % | |
| Backbone | No. of liquid pipeline: 1 No. of gas pipeline: 1-3 Pipeline material: 316L System pressure resistance: ≤ 10 MPa Working pressure: < 8 MPa Pre-heater temperaure: Rt-800℃ Reactor temperaure:Rt-800℃ Catalyst particle size: 0.2-2 mm Dimension (DxWxH, mm): 450x608x508 | |
UV-Vis-1000 Series Inline UV-Vis Spectrometer
More InfoEMC-16 16-Channel Catalyst Evaluation Device (Gas-Liquid-Solid Reaction)
More InfoEMC-16 16-Channel Catalyst Evalutaion Device (Gas-Solid Reaction)
More InfoEMC-G2 Dual-Channel Catalyst Evaluation Device (Gas-Solid Reaction)
More InfoEMC-2 Dual-Channel Catalyst Evaluation Device (Gas-Liquid-Solid Reaction)
More InfoEMC-G1 Single-Channel Catalyst Evaluation Device (Gas-Solid Reaction)
More InfoAS-100 Automatic Sample Collector (100-Slots)
More InfoAS-16 Automatic Inline Sample Collector (16-Slots)
More InfoGLS-FLOW High-Pressure Gas-Liquid Separator Series
More Info
© Copyright 2024 FlowlabTech . All Rights Reserved.
