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| Brand | Corning |
|---|---|
| Origin | USA |
| Model | Nebula™ |
| Category | Flow Chemistry Equipment |
| Construction Material | Corning Specialty Glass |
| Channel Geometry | Patented Heart-Shaped Microchannels |
| Control Interface | Touchscreen + Wireless Connectivity |
| Scalability | Seamless Scale-Up Pathway |
| Application Focus | Undergraduate & Graduate Chemical Engineering Education, Flow Synthesis Pedagogy |
| Compliance Context | Designed for GLP-aligned lab instruction and ISO/IEC 17025–compatible teaching environments |
| Brand | Corning |
|---|---|
| Origin | USA |
| Model | G3 |
| Fluid Throughput Capacity | Up to 1000 m³/year (≈1000 metric tons/year) |
| Temperature Range | –25 °C to 200 °C |
| Maximum Operating Pressure | 18 bar |
| Material | All-Glass Flow Path (Metal-Free) |
| Optical Transmission | Full UV-Vis Transparency (Quartz-Fused Silica Equivalent) |
| Modular Architecture | Interchangeable Reaction Units for Scalable Process Development |
| Photochemical Configuration | Dual-Side Illumination with Optional Wavelength-Selective LED Arrays (6 Standard Wavelengths: 365, 385, 405, 420, 450, 525 nm) |
| Thermal Management | Integrated Liquid-Cooled LED Mounting & Active Reactor Jacketing |
| Scale-Up Pathway | Direct Geometric and Kinetic Scaling from Corning G1 to G3 Platform |
| Brand | Corning |
|---|---|
| Origin | USA |
| Model | G4 |
| Fluid Throughput Capacity | Up to 2000 m³/year |
| Operating Temperature Range | –25 °C to 200 °C |
| Maximum Operating Pressure | 18 bar |
| Material | Metal-Free Carbon–Silicon Alloy Ceramic |
| Scalability | Direct G1-to-G4 Geometric and Performance-Scaled Architecture |
| Regulatory Alignment | Designed for GLP/GMP-compliant environments, compatible with ASTM E2500 and ISO 9001 process validation frameworks |
| Brand | Corning |
|---|---|
| Origin | USA |
| Model | G1 Glass Reactor |
| Flow Rate Range | 15–250 mL/min |
| Operating Temperature | −60 °C to 200 °C |
| Maximum Inlet Pressure (gauge) | 18 bar |
| Material Compatibility | All-glass fluidic path (HF, F₂, and molten alkali above 150 °C excluded) |
| Thermal Management | Dual-zone integrated heat exchange plates (top & bottom) |
| Residence Time | 5.0 s at 100 mL/min |
| Configurability | Standalone or series-connected dual-G1 operation |
| Compliance | Designed for GLP-compliant process development and scalable continuous manufacturing |
| Brand | Corning |
|---|---|
| Origin | USA |
| Model | Corning AFR Lab Microchannel Continuous Flow Reactor |
| Operating Flow Rate | 0–10 mL/min |
| Temperature Range | –40 °C to 200 °C |
| Maximum Operating Pressure | 0–18 bar (gauge) |
| Construction Materials | Specialty glass, PFA, PETE, perfluoroelastomer |
| Reaction Module Volume | 2.7 mL per module |
| Light Source Options | 6 selectable LED wavelengths, irradiance ≥100 mW/cm², dual-side uniform illumination, liquid-cooled, wireless intensity/wavelength control |
| Thermal Management | Integrated portable temperature controller, rapid thermal equilibration |
| Fluid Inlets | 1 gas + 2 or 3 liquid inlets with back-pressure regulation |
| Compliance | Metal-free fluid path, plug-and-play architecture, seamless interoperability with Corning AFR Series reactors |
| Brand | Corning |
|---|---|
| Origin | USA |
| Model | G1 Hybrid |
| Flow Rate Range | 15–250 mL/min |
| Temperature Range | −60 °C to 200 °C |
| Maximum Inlet Pressure (gauge) | 18 bar |
| Reactor Architecture | Dual-module, modularly configurable (independent or series operation) |
| Core Materials | Corning® Advanced-Flow™ glass modules (optically transparent, photochemically compatible) + silicon carbide (SiC) modules (high chemical resistance, suitable for quenching and aggressive reagents including concentrated alkalis) |
| Compliance | Designed for GLP-compliant lab-scale flow chemistry development |
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