锅炉吹灰器除灰内燃的技术◇及原理々
发布时间:
2023-08-11 00:00
来源:
在技术领域的支持下,总结出锅炉吹灰器除灰内燃的技术及原理,锅炉的内燃过程实际上是一种极其复杂的物理化学反应过程,但是由于受燃煤的特性、受热面上的结◥构、炉内的温度场≡水平就越来越高及空气动力工◤况等物质因素,造成整个受热面积的灰与结渣,使锅炉设备出力也不断╱的下降。而国内的动力用煤多使用的是低品劣质煤,锅炉的燃煤多存〒在变且灰份也非常的大、热值也在不断的降低的ω趋势,这就自然的加剧着受热面的积灰结焦的过程形成。仅仅此设备就可通过锅炉设计和运行的调整,是不能够快速的解决掉炉内结╳灰结焦的问题,所以使用锅炉吹灰器是不可缺少的重要设备之一,使用到最合√适的设备,直接会提高整个♀经济的效应。目前国内的锅炉吹灰器与传统的吹灰器普遍都存在着机械卡涩,热态的★进退非常的困难,行程开关造成失灵的现象,而锅炉吹灰器作为最重要的新型吹灰设备,今年来已得到最广泛的√应用,所以在吹灰机理上是通过声波发生器,将一定的强度、频率的声波作用于锅炉设备的本体内各种可能积灰结焦的≡空间。而锅炉设备处于高声强高声场范围之内的空气分子及烟灰颗粒所产生的震荡。所以设备在声波震荡的有力反复作用下,积灰就会不断收到声疲劳效力的循环作用,就会从而破坏整个烟灰颗粒与整个受热面以及颗粒之间的巧妙结合,使之烟灰颗粒处⊙于悬浮或流化状态,在运行的过程中烟气流的作用下被带走,达到@最佳的除灰目的。
With the support of the technical field, the technology and principle of internal combustion in boiler soot blower have been summarized. The internal combustion process of the boiler is actually an extremely complex physical and chemical reaction process. However, due to the characteristics of coal, the structure of the heating surface, the temperature field level inside the furnace becoming higher and higher, and aerodynamic conditions and other material factors, the ash and slag deposition in the entire heating area are caused, resulting in a continuous decrease in the output of the boiler equipment. However, domestic power coal mostly uses low-grade and low-quality coal, and the coal used in boilers tends to change, with a high ash content and a continuous decrease in calorific value. This naturally exacerbates the process of ash accumulation and coking on the heating surface. Only this equipment can be adjusted through boiler design and operation, which cannot quickly solve the problem of ash and coking in the furnace. Therefore, using a boiler soot blower is one of the indispensable and important equipment. Using the most suitable equipment will directly improve the overall economic effect. At present, both domestic boiler soot blowers and traditional soot blowers generally have mechanical jamming, making it very difficult to move in and out of the hot state, and the phenomenon of stroke switch failure. As the most important new type of soot blowing equipment, boiler soot blowers have been widely used this year. Therefore, in terms of soot blowing mechanism, a sound wave generator is used to increase the strength The sound waves of frequency act on various spaces within the boiler equipment that may accumulate ash and coke. The vibration generated by air molecules and soot particles in the range of high sound intensity and high sound field of boiler equipment. So under the strong and repeated action of sound waves, the accumulated ash of the equipment will continuously receive the cyclic effect of sound fatigue, which will destroy the clever combination between the entire ash particles and the entire heating surface as well as between the particles, making the ash particles in a suspended or fluidized state, and being carried away by the smoke airflow during operation, achieving the best ash removal purpose.
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在技术领域的支持下,总结出锅炉吹灰器除灰内燃的技术及原理,锅炉的内燃过程实际上是一种极其复杂的物理化学反应过程,但是由于受燃煤的特性、受热面上≡的结构、炉内的温」度场水平就越来越高及空气动力工况等物质因素,造成整个受热面积的灰与结渣,使锅炉设备出力》也不断的下降。而国内的动力用煤多使用的是低品劣质煤,锅炉的燃煤多存在变且灰份也非常的大、热值也在不断的降低的趋势,这就自然的加剧着受热面的积灰结焦的过程形成。<BR/> With the support of the technical field, the technology and principle of internal combustion in boiler soot blower have been summarized. The internal combustion process of the boiler is actually an extremely complex physical and chemical reaction process. However, due to the characteristics of coal, the structure of the heating surface, the temperature field level inside the furnace becoming higher and higher, and aerodynamic conditions and other material factors, the ash and slag deposition in the entire heating area are caused, resulting in a continuous decrease in the output of the boiler equipment.
声波吹灰器为什么能清灰的原因 在技术领域中,清灰◆技术最好的设备就是声波吹灰器,而此设备为什么能清灰的原因,在日↙常的生活中很少有人能明白,那么我们今天就跟大家交流一下。<BR/> The reason why acoustic soot blowers can clean dust is the best equipment in the field of technology, and the reason why this equipment can clean dust is rarely understood in daily life.
在设备的运行过程中,锅炉吹灰器以高端的清灰机理以及自身拥有的性能占据市场,由于灰粒子〓的表面的引力、粒子之间及粒子︽与炉内管壁之间存在着一定粘结力、分子的附着力和静电引力以及设备自然存在的化〓学亲和力等多方面的性能作用,使设备在炉膛及烟道各部位的换热面々上不断的逐步形成积灰结焦。而锅炉吹灰器∞中的烟气灰粒是一种宽◣筛分组成,所以大部分都是小于220um,其中多数为10~30um的微小粒。<BR/> During the operation of the equipment, the boiler soot blower occupies the market with its high-end cleaning mechanism and its own performance. Due to the surface attraction of ash particles, the presence of certain bonding forces between particles and the furnace wall, molecular adhesion and electrostatic attraction, as well as the natural chemical affinity of the equipment, and other performance effects, Gradually form ash and coking on the heat exchange surfaces of the furnace and flue of the equipment. The flue gas ash particles in the boiler soot blower are composed of a wide sieve, so most of them are smaller than 220um, with most of them being small particles of 10-30um.