Incinerator de-ignition can affect equipment efficiency and lead to impure incineration products. Therefore, to ensure the equipment's operation, it is crucial to first understand the causes and solutions to de-ignition. Now, industrial solid waste incinerator manufacturers begin to explain these knowledge points to you:
Mild Fireworks Disruption
The incinerator's temperature dropped between 50% to 100%. After the fire bed was in place, the furnace temperature rose again. Reason: The combustion of waste on the fire bed was good, and the furnace temperature was high, but the shutdown time was set too long and not adjusted in a timely manner, resulting in a short fire bed. The introduction of new materials led to a slower ignition, causing the furnace temperature to drop. There was a slight change in the calorific value of the waste.
2. Severe Doffing
The temperature drop in the furnace exceeded 100 degrees, and only scattered fires were visible in the upper part of the third and fourth wind chambers. Cause: The fire bed was severely short. After the introduction of new materials, the flames in the upper part of the first and second wind chambers were extinguished or failed to ignite promptly. The calorific value of the waste varies greatly, especially when incinerating waste at the bottom and top of the waste storage, as the moisture content in the waste is high, the calorific value is low, and the ignition is slow.
Incinerator afterburning phenomena are primarily categorized into mild and severe afterburning. Due to the varying nature of afterburning, the solutions to the problems are also different. Therefore, when addressing the issues, we need to tailor our solutions to our specific circumstances.
