Design and Application of Outer Coil Tube Reactor

The outer coil reactor, as an efficient and stable reaction equipment, plays a very important role in its unique outer coil design. The outer coil not only optimizes the heating and cooling performance of the reaction kettle, but also enhances the structural strength of the equipment, providing an ideal operating environment for various chemical reactions.

The design of the outer coil cleverly divides the cylinder of the reaction vessel into multiple parts, each of which bears the local external pressure brought by the outer coil. This design not only enhances the compressive strength of the cylinder, but also enables the reactor to maintain stable performance during high-pressure reactions. Meanwhile, as a reinforcing ring, the outer coil tube effectively replaces some of the jacket bodies that bear overall internal pressure, reducing manufacturing costs and improving the cost-effectiveness of the equipment.

In terms of heating, the outer coil reactor adopts steam heating method, and the steam pressure can reach a high level without the need for pressure reduction, thereby improving heat transfer efficiency. In addition, the design of the outer coil also makes the heating more uniform, avoiding problems such as uneven reaction or local overheating caused by uneven heating, and improving the quality and stability of the reaction.

It is worth mentioning that the optimized design of the vertical reactor body structure and half coil area of the outer coil reactor further enhances the performance of the equipment. The vertical structure enables the materials to be fully mixed and in contact during the reaction process, thereby increasing the reaction rate; The optimization of the half coil area ensures the uniformity of temperature rise, making the reaction process more stable and controllable.

In summary, the outer coil design of the outer coil reactor has demonstrated significant advantages in heating, cooling, and structural strength. It can not only meet the needs of various chemical reactions, but also improve the quality and stability of reactions, providing strong support for the development of industries such as chemical, pharmaceutical, and food.