Trident Make High Pressure Stirred Autoclave Reactors

REACTOR VOLUME: ?100 ML to 20 Lts Capacity

DESIGN PRESSURE: Up to 150 Bar G

DESIGN TEMPERATURE: ?Up to 500 Deg. C.

MATERIAL OF CONSTRUCTION: ?SS 316, Duplex 2205, Hastelloy C-276, Hastelloy C-22, Inconel 625, Nickel 200, Monel 400 & Titanium G-2

A High Pressure Stirred Autoclave Reactor Offers Several Advantages, Including?Faster Reaction Rates Due To Increased Mass Transfer From Stirring, The Ability To Perform Reactions At Elevated Temperatures And Pressures Beyond A Solvent's Boiling Point, Precise Temperature Control, Efficient Heat Transfer, And Suitability For A Wide Range Of Chemical Reactions, Particularly Those Involving Gas-Liquid Interactions Like Hydrogenation;?Making It Valuable For Research And Industrial Applications In Fields Like Pharmaceuticals, Chemicals, And Polymers.?

Key Benefits:

• ENHANCED MASS TRANSFER:

The Stirring Mechanism Within The Autoclave Ensures Efficient Mixing Between Reactants, Significantly Improving Mass Transfer And Accelerating Reaction Kinetics.?

• HIGH-PRESSURE CAPABILITY:

Allows Reactions To Be Conducted At Elevated Pressures, Enabling Processes That May Not Be Feasible Under Atmospheric Conditions.?

• PRECISE TEMPERATURE CONTROL:

Precise Temperature Regulation Through Heating And Cooling Systems Ensures Optimal Reaction Conditions.?

• FASTER BATCH TIMES:

By Optimizing Mass Transfer And Heat Transfer, A Stirred Autoclave Can Significantly Reduce Reaction Times Compared To A Standard Reaction Vessel.?

• VERSATILITY:

Can Be Used For A Wide Variety Of Chemical Reactions Including Hydrogenation, Polymerization, Oxidation, And Catalytic Processes.?

• SCALABILITY:

Available In Various Sizes To Accommodate Different Reaction Volumes, Allowing For Scaling Up From Lab-Scale To Industrial Production.?

• SAFETY FEATURES:

Designed With Safety Features Like Pressure Relief Valves And Robust Construction To Ensure Safe Operation Under High-Pressure Conditions.?

Applications:

• CHEMICAL SYNTHESIS:

Development Of New Chemical Compounds, Including Fine Chemicals, Pharmaceuticals, And Specialty Chemicals?

• POLYMERIZATION REACTIONS:

Synthesis Of Polymers With Specific Properties By Controlling Reaction Conditions?

• HYDROGENATION PROCESSES:

Efficient Hydrogenation Of Organic Compounds Using Catalysts?

• CATALYSIS RESEARCH:

Studying Catalytic Reactions Under High Pressure And Temperature Conditions?