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How much do you know about the characteristics of rotary kiln burners?
Rotary kiln burners can use natural materials such as light oil, heavy oil, residual oil, gas, coke oven gas, blast furnace gas, and producer gas; Mechanical heat consumption category: According to the customer's regulations, the design scheme is carried out, with a maximum of 2500 * 10 four Kcal/h;
The combustion engine for premium heat-resistant machinery is generally made of premium heat-resistant materials (with a heat resistance of over 1350 ℃), which can work smoothly in high-temperature machinery and have a long service life; The top of the head of a mechanical combustion machine with a water-cooled heat dissipation structure is made of high-temperature resistant materials. The surface of the ignition head top is constructed with a partition layer, and the top of the ignition head is cooled by circulating water within the partition layer;
The interior of the low nitrogen burner adopts a unique design scheme, where the natural material and combustion gas are evenly mixed, and the natural material point and ignition efficiency are good; Select a medium and high pressure centrifugal fan to produce combustion gas, with strong and good flame appearance.
Ignite learning is a course with distinct themes and strong applicability. In the past, due to the low level of production and manufacturing, the technical standards for ignition processing technology and machine equipment were not high, and the compressive strength of ironing was low. Therefore, based on the mastered work experience and regularity, various ignition equipment and machine equipment can also be designed and manufactured. But now, with the rapid development trend of jet aircraft and rocket teams, it is stipulated to produce ignition equipment with high heat compression strength and wide operation coverage, and increasingly to carry out ignition at high temperatures, high pressures, and high speeds.
Therefore, relying solely on past work experience and insufficient experiments cannot surpass this goal. At this point, it is discovered that a lack of understanding and understanding of the entire process of igniting the foundation can hinder the smooth progress of new design solutions and research and development work. This drives in-depth analysis of the entire ignition process from multiple aspects, with the aim of providing appropriate theoretical guidance in design, research and development, and experimentation.