RADIANT HEAT TRANSFER SYSTEM
- Saint-Gobain
The SpyroCor of Spinworks was developed for energy efficiency of the Radiant Tube in the furnace. Today’s business is faced with numerous production challenges. At Spinworks, we understand this challenge and have designed our SpyroCor Radiant Tube insert to help you to save the valuable fuel cost without sacrificing productivity. SpyroCor has been installed about 14,000 sets all over the world, and been proved its nature of energy saving at Dongbu Steel in Korea.
SPYROCOR
In the furnaces, radiation and convection heat is transferred to the load via radiant tubes.
The burner leg portion of the tube transfers the heat through both radiation and convection, while the exhaust leg only has convection, this causes a heat transfer imbalance. Radiation and convection heat transfer is now present in the exhaust leg, so the two legs are now balanced from a heat transfer standpoint. Input into the radiant tube burner is reduced which results in fuel savings.
- Thermal shock and high temperature resistant Silicon Carbide material
- Energy saving ( 5-20 % )
- Throughput improvement ( 2-11 % )
- Nox reduction
In the furnaces, radiation and convection heat is transferred to the load via radiant tubes.
The burner leg portion of the tube transfers the heat through both radiation and convection, while the exhaust leg only has convection, this causes a heat transfer imbalance. Radiation and convection heat transfer is now present in the exhaust leg, so the two legs are now balanced from a heat transfer standpoint. Input into the radiant tube burner is reduced which results in fuel savings.
- Thermal shock and high temperature resistant Silicon Carbide material
- Energy saving ( 5-20 % )
- Throughput improvement ( 2-11 % )
- Nox reduction
- Apply to various type of Radiant Tube through custom design
