• Turning big ideas into great products | Get Instant Online Quotation On Whatsapp : +91 - 9712614497
| Get Instant Online Quotation On Whatsapp : +91 - 9712614497
  • Address
  • Vatva, GIDC, Ahmedabad- 382445 Gujarat (INDIA)

Chemical Reaction Pressure Vessel

Chemical Reactor vessel:-

We are manufacturer of various types of chemical reactor vessel. we make reactor vessel from 100 liter to 20000 Liter working capacities according to customer's requirement and product characteristics.

What is Chemical Reactor Vessel?

A Chemical Reactor Vessel is a defined as a closed container type vertical cylindrical tank in which various types of chemical reactions takes place under controlled conditions. These type of chemical reaction vessels are an integral part of chemical engineering processes, allowing for the precise and controlled interaction of various chemicals to produce desired products. ARVINDA INDUSTRIES is leading manufacturer, supplier and exporter of Chemical Reactor Vessel based in VATVA GIDC, AHMEDBAAD, GUJARAT, INDIA. We manufacture and supply chemical reactor vessel of various shapes, sizes, and with various technical features as per the demand of customer and product application.

What are the key features and components of a chemical reactor vessel?

  • Vessel Body: The main body of the reactor vessel is very important part of this machine where the chemical reactions take place. It is typically made of materials as per the characteristics of reactants and product which needs to be reacted inside.

  • Agitation System: Various chemical reactions require mixing to ensure uniform distribution of reactants and efficient heat transfer. Hence Agitator shaft is preferred in chemical reactor vessel, the agitator can be of any type of design such as paddles, impellers, blades, or other mechanisms to maintain a homogenous mixture.

  • Heating or Cooling Jacket: To control the temperature of the reaction, reactor vessels is provided with heating or cooling jacket surrounding the main body. Heat transfer fluids, such as steam or cooling water, circulate through the jacket to adjust the temperature.

  • Insulation: Insulation is used to minimize heat loss or gain from the surroundings, helping to maintain the desired reaction temperature

  • Pressure Control: Some reactions require specific pressure conditions. Pressure control systems, such as safety valves or pressure regulators, are incorporated to ensure the vessel operates within safe pressure limits.

  • Inlet and Outlet Ports: Feed product chemical or Reactants are introduced into the vessel through inlet ports, while products and byproducts are removed through outlet ports. These ports allow for controlled addition and removal of materials.

  • Stirring Mechanism: In addition to agitation, some reactors have dedicated stirring mechanisms, such as anchor stirrers or helical ribbon stirrers, to enhance mixing.

  • Sampling Ports: These ports allow operators to take samples during the reaction to monitor its progress.

  • Instrumentation and Controls: Modern reactor vessels often feature instrumentation for monitoring parameters like temperature, pressure, pH, and more. These instruments are connected to control systems that can adjust conditions in real-time.

  • Safety Features: Reactor vessels are equipped with safety measures like relief valves, rupture discs, and emergency shutdown systems to ensure safe operation.

Types of Chemical Reactor Vessels:

  • Batch Reactor: A single batch of reactants is loaded, reacted, and then the vessel is emptied before the next batch.

  • Continuous Stirred Tank Reactor (CSTR): Reactants are continuously added, and products are continuously removed. The contents are well-mixed.

  • Plug Flow Reactor: Reactants flow through the vessel in a continuous manner, with minimal mixing.

  • Packed Bed Reactor: Solid catalysts or absorbents are packed into the vessel, and reactants flow through the packed bed for reaction.

  • Chemical reactor vessels are utilized in various industries, including petrochemicals, pharmaceuticals, specialty chemicals, and food production, to name a few. The design of the vessel depends on factors such as reaction kinetics, reactant compatibility, desired reaction conditions, and safety considerations.


top icon