Supplementary heating for combined power generation and cycle applications
There is a large amount of heat in the exhaust gas emitted from gas turbines in power plants, which can be directly heated or used to generate steam
And driving the steam turbine again generates more current. When the required heat exceeds the available heat in the exhaust gas discharged from the turbine, compensation can be applied
Charging and heating. Eclipse Inc. has a FlueFire burner specifically designed for this purpose. It is a burner installed in a pipeline, which can directly
Installed between turbine exhaust gas and waste heat utilization boiler. This burner is also suitable for heating fresh air.
Adjustment ratio
The FlueFire burner can optimize the thermal efficiency of the system as it extracts oxygen from the exhaust gas emitted by the turbine. The adjustment ratio is at 10:1, without the need for isolation
Any burner. This allows the b
I. Product Overview
The Eclipse FlueFire Air Heating Burner is a high-efficiency, environmentally friendly burner introduced by Eclipse Company in the United States, suitable for various industrial processes that require air heating. It combines advanced combustion technology and design concepts, providing users with efficient, stable, and environmentally friendly combustion solutions.
II. Product Features
Premixed Design:
Adopts a gas/air premixed design to ensure complete combustion and improve thermal efficiency.
High-Efficiency Combustion:
Achieves high-efficiency combustion through optimized combustion processes, reducing energy waste.
Low Emissions:
Utilizes advanced combustion technology and low nitrogen oxide (NOx) design to effectively reduce emissions of NOx and CO, meeting stringent environmental regulations.
High Adaptability:
The burner module is made of high-temperature resistant alloy steel, exhibiting excellent high-temperature and corrosion resistance, suitable for various harsh industrial environments.
The compact design of the burner facilitates easy installation, making it suitable for industrial sites with limited space.
Safety and Stability:
Equipped with multiple safety protection measures, such as over-temperature protection and flame failure protection, to ensure safe and stable combustion.
III. Technical Specifications
Power Range:
Offers a variety of models and specifications with a wide power range to meet the needs of different industrial applications.
Temperature Range:
The burner inlet temperature can reach 700°C (1300°F), and the outlet temperature can reach 1200°C (2200°F), making it suitable for various high-temperature industrial processes.
Turndown Ratio:
The burner has a large turndown ratio, allowing adjustment of output power according to actual needs for precise temperature control.
Ignition and Monitoring:
Equipped with an advanced ignition system for fast and reliable ignition.
Utilizes an advanced flame monitoring system to monitor combustion status in real-time, ensuring combustion safety.
IV. Structure and Design
Burner Body:
Manufactured from high-performance stainless steel material, offering good corrosion and high-temperature resistance.
Burner Module:
Utilizes laser cutting technology to ensure consistent dimensions, enhancing combustion efficiency.
Combustion Air Blower:
The burner is equipped with a combustion air blower that provides stable combustion air flow and pressure, ensuring complete combustion.
Thermal Insulation Design:
The rear plate is made of thermal insulation material, reducing the working environment temperature and enhancing the safety of the burner.
Coaxial Design:
Ensures thorough mixing of fuel gas and air, improving combustion efficiency.
V. Application Areas
The Eclipse FlueFire Air Heating Burner is widely used in industrial sectors that require air heating, such as:
Gas Turbines in Power Plants:
Used for post-heating of turbine exhaust gases, improving energy utilization efficiency.
Drying Furnaces and Kilns:
Provides necessary heat for drying furnaces and kilns, enhancing production efficiency.
Chemical, Metallurgical, Ceramic, Textile Printing and Dyeing, Papermaking, and Food Industries:
Used in various industrial processes that require air heating, such as coating drying and material drying.
VI. Environmental Protection and Sustainability
Low Emissions:
Through optimized combustion processes and low NOx design, effectively reduces emissions of NOx and CO, lowering environmental pollution.
Energy-Efficient:
The efficient combustion method and flexible adjustment capabilities help save energy and reduce production costs.
Compliance with Regulations:
Meets environmental regulations in various countries, assisting enterprises in achieving green production.
urner to maintain temperature consistency within the pipeline while meeting the changing heat input requirements. Flame stability and low nitrogen oxide
The design of the FlueFire burner ensures that the exhaust gas emitted from the turbine is evenly mixed with the fuel, even if the fuel used has a low calorific value, it can still pass through the burner
When the pressure drops to 100Pa (0.4 '' w.c.), a very stable flame is generated, resulting in ensuring clean combustion and low emissions of nitrogen oxides, which are
This is achieved by creating a vortex flow of burner exhaust gas into the nozzle, and the vortex flow can always cool the burner components, allowing for a higher downstream pressure
Temperature.
