High Pressure Vessels

Automation: Our systems can be offered with various probes and accessories, designed to suit for different high temperature and pressure application with manual, semi-automated or a fully automated PC controlled systems to continuously monitor, control & record various process parameters.

Application: When the absence of active mixing or agitation is acceptable or even preferred, non-stirred pressure vessels are utilised in a variety of industries and applications. Here are some illustrations:

Chemical Synthesis: Non-stirred vessels are frequently utilised in chemical synthesis procedures where lengthy reaction times or slow reactions are required. These containers allow for regulated reactions without the need for vigorous mixing, which makes them appropriate for procedures like polymerization, esterification, or condensation reactions.

Crystallization: In crystallisation techniques where the creation of solid crystals from a solution is required, non-stirred containers are frequently used. To encourage crystal formation and obtain the necessary crystal size and purity, slow cooling or evaporation techniques can be used in these vessels.

Digestion & Extraction: Non-stirred vessels are used in digestion and extraction operations where they serve as storage tanks for reactants or solvents during chemical analysis or sample preparation. These containers offer a quiescent environment that dispenses with active mixing and permits regulated reactions or extractions.

High Pressure Reactions: Non-stirred vessels are appropriate for high-temperature reactions, especially where stirring mechanisms might be degraded at high temperatures. These vessels are excellent for processes like high-temperature pyrolysis or thermal decomposition because they can sustain high pressures and temperatures without the need for elaborate agitation systems.

Sample Digestion in Analytical Chemistry: Sample digestion techniques, especially in analytical chemistry laboratories, use non-stirred vessels. These vessels offer a controlled environment for breaking down solid samples using the proper reagents, enabling the release of analytes for further investigation.