Combustion Efficiency
Combustion efficiency is the effectiveness of the burner only and relates to its ability to completely burn the fuel. The boiler has little bearing on combustion efficiency. A well-designed burner will operate with as little as 15% to 20% excess air, while converting all combustibles in the fuel to thermal energy.
Thermal Efficiency
Thermal efficiency is the effectiveness of the heat transfer in a boiler. It does not take into account boiler radiation and convection losses - for example, from the boiler shell, water column piping, etc.
Fuel-to-Steam Efficiency
After combustion, biomass-fired boiler fuel will generate energy and also produce some combustible matter in fly ash which will have bad influence on the surrounding environment. Therefore, in order to realize the goal of environmental protection, we should reduce the generation of combustible matter in fly ash in biomass-fired boiler fuel.
In the whole drying process, we should pay attention to gradually increasing the temperature instead of burning by raging fire; regularly checking boiler's water level and keeping it within the normal range; keeping the flame balanced in the furnace. In addition, we also should properly open the drainage valve and maintain the water level, regularly record the flue gas temperature to control the rise of temperature and high temperature and keep the temperature within the normal range. In general, under these conditions, boiler’s drying quality can be ensured.
The load control is quite significant in boiler’s operation. Both overloaded and ultra-low loaded operations have negative effects on boiler. Different types of boiler have different rated load ranges, but ultra-low loaded operation’s harm to different types of boiler is similar.
The coal-fired boiler has always been one of the important boiler types in the industrial production and its operating costs and capacity play an important role in the enterprise operation.
In thermal fluid systems, the choice of materials for valves, piping, gaskets, and other components is critical to ensure the system's integrity, efficiency, and safety. These materials must be compatible with the thermal fluid used, capable of withstanding the operating temperatures and pressures, and resistant to corrosion. As a leader in industrial boiler manufacturing, ZOZEN Boiler emphasizes the importance of selecting the right materials for each component of a thermal fluid system. Below ...
Investing in high-grade heat transfer fluid is crucial for the optimal performance and longevity of thermal systems, including those used in various industrial processes. High-grade heat transfer fluids offer superior thermal stability, efficiency, and safety, making them an essential component for any operation that relies on precise temperature control. As a leading industrial boiler manufacturer, ZOZEN Boiler understands the importance of using high-quality heat transfer fluids in maintaining...
The impact of fuel on boiler performance is significant and multifaceted, affecting everything from efficiency and operating costs to maintenance requirements and environmental emissions. As a professional industrial boiler manufacturer, ZOZEN Boiler emphasizes the critical role that fuel quality and type play in the operational efficacy, longevity, and sustainability of boiler systems. Here's an overview of how fuel impacts boiler performance:
1. Efficiency and Heat ValueThe type and quality o...
