Straw briquetting machine is a kind of equipment that compresses crop waste such as straw into solid fuel. When using straw briquetting machine to produce fuel, people are generally concerned about whether the fuel produced by this equipment has a high combustion value. So, what is the combustion value of straw briquetting machine related to?

First of all, we need to know what the combustion value is. Combustion value refers to the heat released by unit mass of fuel when it is completely burned. The higher the combustion value, the more energy the fuel contains, which means that the more energy can be generated by using the fuel. Then, what factors are related to the combustion value of straw briquetting machine?

Firstly, the variety, moisture content, density and other factors of straw itself will have an impact on its combustion value. Generally speaking, the lower the moisture content and the higher the density of straw, the higher its combustion value.

Secondly, the burning value of straw briquettes produced by straw briquetting machine is also related to the technological parameters of briquetting machine. For example, parameters such as pressure, temperature and time during pressing will affect the combustion value after briquetting. Generally speaking, increasing the pressure and temperature properly can increase the combustion value, but too high temperature and pressure will cause energy waste and equipment loss.

Finally, the burning value of straw briquettes produced by straw briquetting machine is also related to the subsequent treatment methods. For example, whether to follow the correct operation method and keep dry during storage, transportation and use will affect its combustion effect.

In a word, the combustion value of fuel produced by straw briquetting machine is influenced by many factors. In actual production, we need to make reasonable adjustments according to the types of raw materials, moisture content, process parameters, follow-up treatment methods and other factors to achieve the best energy utilization effect.