At Gunatit Engineers, our galvanizing furnaces are engineered to deliver unmatched reliability, durability, and fuel efficiency, making them the preferred choice for industrial galvanizing operations. Known for their robust performance and low operating costs, our furnaces are setting the standard in the galvanizing industry.
Our galvanizing furnaces are designed to withstand the rigors of industrial use, ensuring long-lasting performance in the most demanding environments. These furnaces have gained a reputation for their exceptional toughness and reliability, offering consistent results that meet the high standards of modern manufacturing processes.
Engineered for optimal heat distribution and energy efficiency, our furnaces lead the industry in both performance and fuel economy. With advanced thermal systems, we ensure uniform heating and optimal zinc adhesion, all while minimizing fuel consumption, reducing operating costs, and maximizing production efficiency.
We recognize the importance of minimizing downtime during installation. That’s why our furnaces are fully pre-assembled and thoroughly tested before leaving our facility. This ensures a smooth installation process and allows for quick commissioning, supported by our team of highly qualified engineers.
Our furnaces are designed for operational flexibility, allowing for easy expansion or relocation as your production needs evolve. Built to the highest industry standards, these furnaces require minimal maintenance, ensuring maximum uptime and long-term operational reliability.
The Pulse-Fired High-Velocity Burner is a key component in galvanizing plants, specifically designed for maximum heat transfer and circulation with minimal fuel consumption. Its advanced design allows for efficient and uniform heating, making it an ideal choice for high-performance operations. This is a direct heating furnace.
This burner supports a wide range of fuel options, including:
By accommodating various fuels, the Pulse-Fired High-Velocity Burner offers flexibility in operations, helping to reduce costs and optimize performance in galvanizing processes.
These burners are the ideal solution for any galvanizing plant seeking to balance efficiency, flexibility, and performance in their metal heating processes.
This burner supports a wide range of fuel options, including:
By accommodating various fuels, the Pulse-Fired High-Velocity Burner offers flexibility in operations, helping to reduce costs and optimize performance in galvanizing processes.
These burners are the ideal solution for any galvanizing plant seeking to balance efficiency, flexibility, and performance in their metal heating processes.
The Indirect Conventional Furnace is expertly designed for hot-dip galvanizing processes, where metals such as cable trays, MS structures, poles, and more are dipped in molten zinc at temperatures ranging from 450°C to 455°C. This furnace operates on low to medium velocity.
This furnace is fuelled by diesel or gas and can also operate using crude oil or heavy oil when light diesel oil (LDO) or gas are unavailable or economically unfeasible. This adaptability ensures seamless operation across various regions and industries with differing fuel options.
Indirect furnace is the ideal solution for industries seeking flexible, efficient, and reliable hot-dip galvanizing capabilities.
This furnace is fuelled by diesel or gas and can also operate using crude oil or heavy oil when light diesel oil (LDO) or gas are unavailable or economically unfeasible. This adaptability ensures seamless operation across various regions and industries with differing fuel options.
Indirect furnace is the ideal solution for industries seeking flexible, efficient, and reliable hot-dip galvanizing capabilities.
The Electric Furnace is designed to provide precise and efficient heating for the hot-dip galvanizing process, using radiant heat to ensure uniform zinc coating. It features a fully thermally insulated chamber, sophisticated control systems, and high-quality construction, delivering superior performance with minimal energy consumption and maintenance.