Lab Glass Reactor
A reactor is an essential part of almost all chemical process units. It is rightly termed as the ‘heart’ of the system since it is the most critical component. All reaction processes start with research at the laboratory scale. Hence, Ablaze’s range of Laboratory reactors are sophisticated and designed especially keeping your scale-up requirements in mind. Lab Glass Reactor is designed for modern chemical plants and laboratories applications.
Chemical reactions are the main process of modern chemical plants and laboratories. Ablaze Glass Laboratory Reactors are designed to carry hundreds of thousands of different techniques and create new processes.
Despite the fact that equipment for chemical reactions can be made from completely different materials, glass is the most popular of them.
The reason is quite simple: a chemical glass reactor has a number of keys properties for comfortable research - transparency and the possibility of visual observation of the process, chemical resistance and inertness, thermal stability.
Capacity: Replace multiple reaction set-ups with a single universal
system that accepts vessels from 250 ml to 5 litres
system that accepts vessels from 250 ml to 5 litres
Models: GMP / non-GMP
Electrical Parts: ATEX / Flame-proof / Weather-proof
Lab Glass Reactor Unit includes
- Stand with base, support rods, bosses and all clamps
- Glass reaction vessel with glass lid
- Vessel with FEP O-ring seal and PTFE collar
- Stainless Steel tray
- Vessel-to-manifold insulated hoses with quick-release connections
- IKA motor
- Magnetic Seal
- Temperature Indicator
- Quick release clamp for reactor
Salient Features:
- Interchangeable Reactors [250 mL ~ 5000 mL]
- Made from Borosilicate Glass 3.3 [European Raw Material]
- Reactor available in Jacketed and Triple wall Design with Vacuum Insulation for Cryogenic Applications
- Standard Stirrer Drive for high speed stirring up to 800RPM (CE Certified) [IKA, Adolf, etc.]
- Stirrers made of PTFE lined, PFA Lines, SS 316, Hastelloy, etc.
- Interchangeable Stirrers Blades [Impeller, Propeller, Anchor, Moon Blade, etc.]
- Can be easily coupled to leading Heating / Cooling Units [Huber, Julabo, Lauda, PolyScience, etc.]
- Ideal for Operations under Full Vacuum [-1 bar / -760 mmHg / -0.1 MPa]
- Ideal for Operation under 2 bar [1500 mmHg / 0.2 MPa]
- Compliable to Vacuum pumps [Welch, Vacuum brand, KNF, etc.]
- International Standard Connector [Bola, DWK’s Rodaviss, Bohlender, etc.]
- Easy to use, operate and maintain with no need of designated operator or tools
- High Quality and Cost-effective solution for all Lab Reaction Applications
- Lab Reactor system suitable for most benchtop fume hoods
- Suitable for vacuum condition
- PTFE coated RTD for effective temperature sensing while maintaining inert contact parts
- Portable Model Available.
Technical Specification :
- Glass : Borosilicate glass 3.3
- Temperature range : -90° C to 250° C
- Pressure range : Full vacuum to 2 bar
- Stirrer Speed range : 60 - 2000 rpm
- Interaction with reagents: complete Inertness
- Seal and valve material: Teflon DuPont, PEEK, Kalrez
- Jacket : Single for heating / cooling or double for additional thermal insulation and cryogenic reactions
Applicable Industries:
- Pharmaceutical
- Chemical
- Herb Extraction
- Petrochemical
- Cosmetics
- Fragrance
- Aromatics
- Food & Dairy
- Agrochemicals
- Oil & Gas
- Dyes & Pigments
- Research Labs
- Marine Industry
- Fertilizers
Why Borosilicate Glass?
A Borosilicate glass reactor offers a distinctive advantage of reaction visibility, which is not possible in other materials of construction. This is especially important in the research phase in laboratory reactors. Additional benefits of borosilicate glass lab reactors include:
- Smooth surfaces allow easy cleaning and sterilization and prevent the build–up of solids on the inner walls.
- With almost universal resistance to corrosion, a long service life is guaranteed, and maintenance is kept to a minimum.
- Their transparency permits visual monitoring of the process at all times
- Being inert, the risk of contamination is negligible.
