|
 The Magellan™
Benchtop Quick Screening – External Heat
Exchanger
The STT® system is a combination of patented processes
and equipment for the manufacture of chemicals and pharmaceuticals. The
Magellan™ Series of reactors is well suited for research and development
labs.
The Magellan® type reactor is designed for early stage
research where there is a need to quickly identify and confirm the validity
of a reaction. The Magellan® series was developed to use small amounts
of chemicals, so it is a good choice for applications where the reactants
are expensive, such as pharmaceutical applications, or are hazardous
(explosive or toxic). Experiments can be performed in a minimum amount
of time and usually with only the simple support equipment typically
found in most laboratories. Even though the reactor is small, it has
been constructed using the same design principles as the Innovator® Series
of pilot production reactors. Discoveries can be easily scaled to the
larger equipment to supply larger amounts of product for testing or client
evaluation.
On-line data logging is included in the system and can be connected to
a company’s internal customized software logging system. Customized
connections can be provided to interface with real time analysis equipment
such as HPLC or IR.
| Dimensions |
W x L x H |
| Foot Print |
10" x 22" x 8"
25.4 cm x 55.9 cm x 20.3 cm |
| Weight |
50 lb
22.7 Kg |
| Electrical Components Specifications |
| Motor RPM and Power Requirements |
max. 12,000 RPM
208-230 V, 3 Phase, 30 A |
max. 6,000 RPM
115V, 1 phase, 20 A |
| Motor Classification |
DC Servo (b)
Brushless |
| Control Panel |
Intrinsically Safe (a) |
| Materials of Construction Options (for
wetted surfaces) |
316L SS
Titanium |
Hastelloy®C
Client’s choice |
Control Panel
The Magellan™ system comes with an integrated electronic control panel
and customizable software, data logging capability, and several external interfaces
including RS-232, RS-422/485, USB and 10Base-T/100Base-TX Ethernet Port for
LAN connection. A CompactFlash® socket is provided so that Flash cards
can be used to collect trending and data logging information as well as to
store larger configuration files.
Typical
Seal Parameters
|
Standard
Seal
Triple Lip (maximum)
45-50 PSIG
130°C
12,000 RPM |
Optional
Seals
Gas Mechanical
Special Order
|
Note: The maximum, temperature,
pressure, and rotor RPM values are interdependent |
|
|
 |
The specifications provided here are general and Kreido Laboratories
should be contacted for
application recommendations when desired values fall out of the recommended
range.
|
| Design Specifications |
| Stator Inner Diameter (ID) |
0.625", 15.9 mm |
| Rotor Working Length |
3.96", 10.1 cm |
| Typical Rotor Outer Diameters (OD) |
0.595"
15.1 mm |
0.600"
15.2 mm |
0.605"
15.4 mm |
| Gap |
0.0150"
0.38 mm |
0.0125"
0.32 mm |
0.0100"
0.25 mm |
| Resulting Total Cavity Volume |
2.06 ml |
1.75 ml |
1.43 ml |
| Resulting Working Volume (b) |
1.85 ml |
1.54 ml |
1.22 ml |
| Entry Port Configuration |
2 ports standard, 1 at tip of rotor and 1 on flat of
rotor (see illustration) where working volume begins. |
| Exit Port Placement |
Standard as illustrated |
| Operational Specifications |
| Rotation Rate |
Maximum of 5,000 RPM |
| Heat Exchanger – Required Pumping Volume |
4 - 5.25 GPM (15-20 LPM) @ 5 PSIG |
| Notes |
| (a) |
Explosion Proof construction (with nitrogen purge) can be provided. |
| (b) |
Working Volume is based on the Rotor Working Length, the Rotor
OD and the Gap where Gap = 1/2(Stator ID – Rotor OD). Custom
Gap configurations can be provided but not with Gaps less than 0.010" or
0.25 mm. |
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