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Avantium Headquarters
Zekeringstraat 29
1014 BV Amsterdam
The Netherlands
Zekeringstraat 29
1014 BV Amsterdam
The Netherlands
Easy and quick reactor exchange system. Possibility to use quartz reactors at high pressure.
HT = High Temperature max. 800°C nominal, limited to 925°C (<0.5°C reactor to reactor deviation)
100 – 800°C
up 925°C (Option)
50 – 525°C
100 – 800°C
up 925°C (Option)
50 – 550°C
50 – 550°C
L= Length
OD= Outer Diameter
ID= Inner Diameter
SS= Stainless Steel (< 550⁰C)
Qz= Quartz (< 925⁰C)
L | 300 mm | 561 mm |
OD | 3 mm | 6 mm |
ID SS | 2 / 2.6 mm | 2 / 3 / 4 / 5 mm |
ID Qz | 2 mm | 2 / 4 mm |
300 mm | 561 mm | 561 mm |
3 mm | 3 mm | 6 mm |
2 / 2.6 mm | 2 / 2.6 mm | 2 / 3 / 4 / 5 mm |
2 mm | 2 mm | 2 / 4 mm |
561 mm |
3 mm |
2 / 2.6 mm |
2 mm |
561 mm |
3 mm |
2 / 2.6 mm |
2 mm |
(isothermal zone tolerance ± 1°C)
Note: isothermal length is dependent on the temperature range
300 / 3 HT | 561 / 6 HT |
>120 mm @ 450°C | >200 mm @ 500°C |
>90 mm @ 800°C | >150 mm @ 800°C |
>140 mm @ 925°C |
300 / 3 HT | 561 / 3 MT | 561 / 6 HT |
>120 mm @ 450°C | >310 mm @ 450°C | >200 mm @ 500°C |
>90 mm @ 800°C | >150 mm @ 800°C | |
>140 mm @ 925°C |
561 / 3 MT iRTC |
250°C ±0.5°C 41cm (4reactors) |
350°C±0.5°C 38cm (4reactors) |
550°C±0.5°C 28cm (4reactors) |
3 reactors at 550°C, 1 reactor 350°C: 550°C=27cm 350°C=41cm ±0.5°C |
561 / 3 MT iRTC |
250°C ±0.5°C 41cm (4reactors) |
350°C±0.5°C 38cm (4reactors) |
550°C±0.5°C 28cm (4reactors) |
3 reactors at 550°C, 1 reactor 350°C: 550°C=27cm 350°C=41cm ±0.5°C |
(isothermal zone)
0.2 - 0.6 mL | 0.4 - 2.0 mL |
0.2 - 0.6 mL | 0.4 - 1.0 mL | 0.4 - 2.0 mL |
0.4 - 1.0 mL |
0.4 - 1.0 mL |
2 – 80 barg
0.5 – 180 barg (option)
2 – 100 barg
0.5 – 180 barg
2 – 80 barg
0.5 – 180 barg
2 – 20 barg
2 – 50 barg (option)
Advanced control RSD ±0.1 barg at reference conditions (gas phase only and 20 barg). For trickle flow Advanced control RSD ±0.5barg.
Standard (±0.5 barg)
Advanced (±0.1 barg) (option)
Standard (±0.5 barg)
Advanced (±0.1 barg) (option)
Advanced (±0.1 barg)
Advanced (±0.1 barg)
(#Gas Feeds)
He, Ar, N2, H2, CH4, CO2, C2H4, C2H6, O2/Inert (≤5%), CO, Other gases
He, Ar, N2, H2, CH4, CO2, C2H4, C2H6, O2/Inert (≤5%), CO, Other gases
He, Ar, N2, H2, CH4, CO2, C2H4, C2H6, O2/Inert (≤5%), CO, Other gases
He, Ar, N2, H2, CH4, CO2, C2H4, C2H6, O2/Inert (≤5%), CO, Other gases
(with pressure measurement)
Full integration GC, MS , GC/MS with data visualisation (option)
Full integration GC, MS , GC/MS with data visualisation
Full integration GC, MS , GC/MS with data visualisation
Full integration GC, MS , GC/MS with data visualisation
Split feeding 8 + 8 reators (option)
Pump-Coriolis dosing system
(ambient, cooled)
Pump-Coriolis dosing system
(ambient, cooled, heated 80°C)
Pump-Coriolis dosing system
(ambient, cooled, heated 80°C)
Pump-Coriolis dosing system
(ambient, cooled, heated 80°C)
Microfluidic Distribution
(4-channel glass-chip)
Microfluidics Distribution
(4x4-channel glass-chip)
(16-channel glass-chip)
Active Liquid Distribution (option)
(with automatic isolation valves)
Active Liquid Distribution
(with automatic isolation valves)
Microfluidic Distribution
(4-channel glass-chip)
(G/L Separation)
Parallel liquid sampling (4 x 20ml vials) with sequential on-line gas phase sampling (option)
Automated liquid sampling (4 rows x 16 vials x 8ml) with sequential on-line gas phase sampling (option)
Automated liquid sampling (4 rows x 16 vials x 8ml) with sequential on-line gas phase sampling (option)
Parallel liquid sampling (4 x 20ml vials) with sequential on-line gas phase sampling (option)
(Off-line Analysis Connection)
Full heated circuit up to 180°C with sequential on-line full gas phase sampling (option)
Full heated circuit up to 200°C with sequential on-line full gas phase sampling
Full heated circuit up to 200°C with sequential on-line full gas phase sampling
Full heated circuit up to 200°C with sequential on-line full gas phase sampling
Integrated Workflow: SimDist, total S/N, liquid density, balance, label printer, barcode (option)
Integrated Workflow: SimDist, total S/N, liquid density, balance, label printer, barcode
Integrated Workflow: SimDist, total S/N, liquid density, balance, label printer, barcode
Integrated Workflow: SimDist, total S/N, liquid density, balance, label printer, barcode
Ambient temperature
Heated wax trapping (option)
Ambient temperature / Cooled containers / Heated compartment (wax trapping, heavies)
Ambient temperature / Cooled containers / Heated compartment (wax trapping, heavies)
Ambient temperature / Cooled containers / Heated compartment (wax trapping, heavies)
Gas sensors and control box (CO, LEL, VOC)
Gas sensors and control box (CO, LEL, VOC)
Gas sensors and control box (CO, LEL, VOC)
Gas sensors and control box (CO, LEL, VOC)
Flowrence® recipe builder, control & database builder
Flowrence® recipe builder, control & database builder
Flowrence® recipe builder, control & database builder
Flowrence® recipe builder, control & database builder
Unrivalled accuracy in gas distribution with patented glass-chips for 4 and 16 reactors, with a guaranteed flow distribution of 0.5% RSD. Quick exchange of glass-chips for different operating conditions. Flexibility to cover a wide range of applications.
Compact modular design for gas and liquid distribution. No high-temperature pressure sensors required. Quick exchange of the microfluidic glass-chips, without the need for time-consuming leak testing.
Unique tube-in-tube design with easy and rapid exchange of the reactor tubes (within minutes!). No need for any connections. Use of inert diluent gas (outside of reactor) to maintain the pressure prevents dead volumes and back flow. Possibility to use quartz reactors at high pressure applications.
Programmable, fully automated liquid product sampling robot for 24/7 hands-off operation. Robot equipped with a compact manifold aiming at depressurizing the effluent immediately after each reactor to atmospheric pressure. Eliminates the use of high pressure valves.
The most accurate and stable pressure regulator for a 16-parallel reactors with just ±0.1bar RSD. The RPC uses microfluidics technology to regulate the pressure of each reactor, maintaining equal distribution of the inlet flow over the 16 reactors.
Distribution of difficult feedstocks e.g., VGO, HVGO, DAO. Liquid distribution 0.2% RSD, making it the most accurate liquid distribution device on the market. Option to selectively isolate each reactor.
No dead-zones, no bed packing & distribution effects. The catalyst packing is straightforward and does not require special procedures. A single string of catalyst particles is loaded in the reactors avoiding maldistribution, eliminating channeling and incomplete wetting.
Unique reactor closing system with no connections. Rapid reactor replacement minimizing delays, improving uptime and reliability. Stable evaporation by liquid injection into reactor.
Zekeringstraat 29
1014 BV Amsterdam
The Netherlands