Trident Make High Pressure Stirred Autoclave Reactors
Rakesh Lele (???????????????? - ?????? ??????????)
Partner @ KVC Process Systems | Marketing & Market Study
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:
The Stirring Mechanism Within The Autoclave Ensures Efficient Mixing Between Reactants, Significantly Improving Mass Transfer And Accelerating Reaction Kinetics.?
Allows Reactions To Be Conducted At Elevated Pressures, Enabling Processes That May Not Be Feasible Under Atmospheric Conditions.?
Precise Temperature Regulation Through Heating And Cooling Systems Ensures Optimal Reaction Conditions.?
By Optimizing Mass Transfer And Heat Transfer, A Stirred Autoclave Can Significantly Reduce Reaction Times Compared To A Standard Reaction Vessel.?
Can Be Used For A Wide Variety Of Chemical Reactions Including Hydrogenation, Polymerization, Oxidation, And Catalytic Processes.?
Available In Various Sizes To Accommodate Different Reaction Volumes, Allowing For Scaling Up From Lab-Scale To Industrial Production.?
Designed With Safety Features Like Pressure Relief Valves And Robust Construction To Ensure Safe Operation Under High-Pressure Conditions.?
Applications:
Development Of New Chemical Compounds, Including Fine Chemicals, Pharmaceuticals, And Specialty Chemicals?
Synthesis Of Polymers With Specific Properties By Controlling Reaction Conditions?
Efficient Hydrogenation Of Organic Compounds Using Catalysts?
Studying Catalytic Reactions Under High Pressure And Temperature Conditions?