One is to lower the viscosity of the burning heavy oil. As for how to make the temperature during combustion within a definite range, it is necessary to measure the corresponding viscosity value through sampling investigation to draw a graph and strictly control according to the graph. In addition, according to relevant experimental research data, the degree of atomization is the 0.215th power of its viscosity. And the amount of soot depends on the diameter of the coke shell produced after combustion, and whether the completeness of combustion determines the diameter of the coke shell. Assuming all circumstances and conditions are the same, combustion is entirely determined by the viscosity of the heavy oil used for combustion, which value is directly proportional to the degree of particulates after atomization.
The second is to use oil guns with good performance and good structure
equipment. Different operating parameters in the oil guns and their structures will affect their atomization degree and quality. Therefore, in order to determine their quality, it is necessary to carry out different specific experiments in various ways to verify and establish the operating parameters and structures.
To reduce the ratio of carbon black and residual soot particles contained in the generated smoke, it is necessary to ensure that there is a balance of C02 and 02 content in the combustion furnace, and to make the fuel and air in it in a good combination. Only in this way can we ensure sufficient mixing and combustion in the combustion furnace.
For the method of making coke shell and residual smoke become less, it is fundamental to increase the speed of burning oil droplets. Then heat preservation, preventing air leakage, and controlling the balance of air content and heating it as much as possible, when these can be done, the temperature in the furnace will naturally become higher. So as to achieve the fundamental method.
In order to reduce the production of CO2 and O2, the purpose of atomizing the oil droplets can be achieved by adding heavy oil additives.
Then, through the above method, when the combustion is carried out again, the exhausted smoke is obtained and investigated again, and the concentration and the amount of smoke are greatly reduced. It shows that these technologies have a great effect on improving thi
One is to lower the viscosity of the burning heavy oil. As for how to make the temperature during combustion within a definite range, it is necessary to measure the corresponding viscosity value through sampling investigation to draw a graph and strictly control according to the graph. In addition, according to relevant experimental research data, the degree of atomization is the 0.215th power of its viscosity. And the amount of soot depends on the diameter of the coke shell produced after combustion, and whether the completeness of combustion determines the diameter of the coke shell. Assuming all circumstances and conditions are the same, combustion is entirely determined by the viscosity of the heavy oil used for combustion, which value is directly proportional to the degree of particulates after atomization.
The second is to use oil guns with good performance and good structure
equipment. Different operating parameters in the oil guns and their structures will affect their atomization degree and quality. Therefore, in order to determine their quality, it is necessary to carry out different specific experiments in various ways to verify and establish the operating parameters and structures.
To reduce the ratio of carbon black and residual soot particles contained in the generated smoke, it is necessary to ensure that there is a balance of C02 and 02 content in the combustion furnace, and to make the fuel and air in it in a good combination. Only in this way can we ensure sufficient mixing and combustion in the combustion furnace.
For the method of making coke shell and residual smoke become less, it is fundamental to increase the speed of burning oil droplets. Then heat preservation, preventing air leakage, and controlling the balance of air content and heating it as much as possible, when these can be done, the temperature in the furnace will naturally become higher. So as to achieve the fundamental method.
In order to reduce the production of CO2 and O2, the purpose of atomizing the oil droplets can be achieved by adding heavy oil additives.
Then, through the above method, when the combustion is carried out again, the exhausted smoke is obtained and investigated again, and the concentration and the amount of smoke are greatly reduced. It shows that these technologies have a great effect on improving thi