Reactors

Fiberglass reactor tanks are essential for chemical processes, offering excellent corrosion resistance and thermal stability. Widely used in industries like pharmaceuticals, food processing, and wastewater treatment, these tanks ensure safe and efficient mixing, storage, and reaction of various chemicals, enhancing overall operational efficiency. 

Fiberglass chemical reactors offer several unique benefits that enhance their efficiency and longevity in various industrial applications. Firstly, their corrosion resistance is exceptional, making them ideal for handling aggressive chemicals without degradation, thus ensuring safety and reliability. Additionally, fiberglass reactors are lightweight compared to traditional metal reactors, facilitating easier installation and transportation. They also provide excellent thermal insulation, which helps maintain consistent temperatures during chemical reactions, leading to improved process control and energy efficiency. Furthermore, the smooth, non-porous surface of fiberglass minimizes the risk of contamination, ensuring the purity of the chemical products. Finally, the versatility in design allows for customized solutions tailored to specific processing requirements, making fiberglass chemical reactors a preferred choice in industries such as pharmaceuticals, food processing, and wastewater treatment. 

Manufacturing Capacity            100 Liters to 40000 Liters

Manufacturing Process              Hand Layup

Design Standards         BS 4994: 1987

M.O.C                                            Isophthalic, Vinyl Ester, Superior Vinyl Ester, Derakane, PPGL/FRP, PCVC/FRP, ECTFE/FRP, PVDF/FRP, HDPE

SALIENT FEATURES OF FIBERGLASS REACTORS

Fiberglass Chemical Reactors

1. Corrosion Resistance: Fiberglass reactors are highly resistant to a wide range of corrosive chemicals, ensuring durability and reducing maintenance costs.

2. Lightweight: The lightweight nature of fiberglass allows for easier handling, installation, and transportation, which can reduce overall project costs.

3. Thermal Insulation: Fiberglass provides excellent thermal insulation, maintaining stable temperatures during reactions and enhancing process efficiency.

4. Customizability: Fiberglass reactors can be tailored to specific dimensions and configurations, accommodating various industrial needs and processes.

5. Smooth Surface: The non-porous and smooth interior surface minimizes the risk of contamination, ensuring the purity of the chemical products.

6. Cost-Effective: Lower initial costs and reduced maintenance needs make fiberglass a cost-effective choice for many applications.

Dual Laminates Chemical Reactors

1. Enhanced Corrosion Resistance: Dual laminates combine a corrosion-resistant inner layer (often fiberglass or plastic) with a robust outer layer (typically metal), providing superior protection against aggressive chemicals.

2. Structural Integrity: The combination of materials offers greater mechanical strength and structural integrity, allowing for the handling of high pressures and temperatures.

3. Thermal Protection: Dual laminates offer excellent thermal insulation properties, improving energy efficiency and process stability.

4. Reduced Weight: Similar to fiberglass, dual laminates are lighter than conventional metal reactors, simplifying installation and transportation.

5. Safety: The outer layer of metal acts as a protective barrier, minimizing the risk of leaks and ensuring greater safety in hazardous environments.

6. Longevity: The dual-layer design significantly extends the lifespan of the reactor by protecting the inner layer from physical damage and chemical attack.

7. Versatility: Dual laminates can be engineered to meet specific application requirements, making them suitable for various industries, including chemical processing, pharmaceuticals, and food production.