|Industrial dust treatment equipment series|
|Welding fume exhaust gas treatment series|
|Grinding polishing dust removal equipment|
|Stand-alone dust collector|
|Spiral duct and accessories series|
， 除尘设备厂家节能设计的几个要点 可以从以下几点来设计： Dust removal equipment manufacturers' dust removal equipment is composed of dust extraction hood, dust collector main box, fan, muffler system, dust cleaning device, filter device, etc. Related to the design of dust removal equipment is the dust sealing device and dust. Several points of energy-saving design for recycling and cleaning design and dust removal equipment manufacturers can be designed from the following points:
Several points of energy-saving design for dust removal equipment manufacturers are as follows :
：在同一个工作的粉尘源点，应该设计一个除尘系统，不应设计多个除尘分口。 1 : At the same source of dust, one dust removal system should be designed, and multiple dust removal outlets should not be designed.
：对于不同的粉尘出尘点，当粉尘可以一起回收和没有可回收利用价值的粉尘一起，可以使用一个除尘系统。 2 : For different dust outlets, when the dust can be recovered together with dust that has no recyclable value, a dust removal system can be used.
： 2 种和2种以上的粉尘或者是带有粉尘气体的混合后引起燃烧或者爆炸时不要设计成合为一个除尘系统。 3 : Do not design a dust removal system when two or more kinds of dust or dust or gas with dust gas is caused to burn or explode.
：气温 不一样的的粉尘气体，合并在一起后可以降低气体温度省略冷却装置时可考虑其混合。 4 : Dust gases with different air temperatures can be combined to reduce the gas temperature when combined. Omit the cooling device. However, after mixing, there may be situations that should not cause mixing in the air duct.
： 划分除尘系统除进行技术比较外，还要对二个能耗比较，优先设计节能的除尘系统。 5 : In addition to the technical comparison of the divided dust removal systems, it is also necessary to compare the two energy consumption and give priority to the design of energy-saving dust removal systems. The comparison of energy consumption is mainly to consider the energy consumption of the system operation
： 打磨除尘抛光设备厂家 对除尘系统要进行不同方案设计和验证，要选择最合理的节能设计方案。 6 : The manufacturers of sanding dust removal polishing equipment should design and verify the dust removal system with different schemes, and choose the most reasonable energy saving design scheme.
2 座 150t 转炉、最大出钢量为 180t ，方案一采用转炉二次除尘和厂房气楼（三次）除尘。 For example, in a company with two 150t converters and a maximum tapping capacity of 180t , Option 1 uses secondary dust removal from the converter and (three) dust removal from the factory building. 90 × 104m3 ／ h ，包括转炉上料系统的除尘，其中 1 座转炉兑铁时的炉前门型集尘罩抽风量为 48 × 104m3 ／ h 。 The designed air volume of the secondary dust removal system is 90 × 104m3 / h , including the dust removal system of the converter feeding system. The airflow of the front door dust cover of the converter when the converter is ironed is 48 × 104m3 / h . 65 × 104m3 ／ h 。 The third dedusting is dedicated to converter ironing, and the system design air volume is 65 × 104m3 / h . 套系统除尘风机均设液力偶合器调速装置，当转炉兑铁时，为提高转炉二次除尘排烟能力，此时的二次和三次除尘系统所有风机高速运行；兑铁结束后，二次除尘风机调速运行，而三次除尘风机以最低速节能运行。 The two sets of system dust removal fans are equipped with hydraulic coupling speed control devices. When the converter is ironed, in order to improve the secondary dust removal and exhaust capacity of the converter, all the fans of the secondary and third dust removal systems are running at high speed. The secondary dedusting fan runs at a regulated speed, and the tertiary dedusting fan runs at the lowest speed to save energy.
1 座转炉兑铁时的抽风量就需要 120 × 104m3 ／ h 以上，这样，二次除尘系统设计风量约需 162 × 104m3 ／ h 以上。 If the second solution is adopted to design only the secondary dust removal, in order to obtain a high capture effect, the air extraction volume of only one converter when ironing is required is more than 120 × 104m3 / h . In this way, the design air volume of the secondary dust removal system requires approximately 162 × 104m3 / h or more. 120 × 104m3 ／ h 的风量来维持系统的抽力和水平管道内一定的气体流速以防止积尘。 From the analysis of the energy consumption of the system operation, although the fan speed can be adopted in the non-ferrous phase, the air volume of not less than 120 × 104m3 / h is still needed to maintain the pumping force of the system and a certain gas velocity in the horizontal pipeline to prevent dust . 90 × 104m3 ／ h 风量的二次除尘方案，其能耗显然要大很多，而且，尚不能解决转炉兑铁结束后从铁水空包内产生的烟气使厂房冒烟的问题。 Compared with the secondary dust removal scheme with an air volume of 90 × 104m3 / h , the energy consumption is obviously much larger. Moreover, the problem of smoke from the hot air generated by the converter after the ironing of the converter is still not solved.
More related content: Characteristics and classification of dust removal equipment
节能设计不仅帮客户节省了更多的成本，让日后的使用运行维护费用大大减少！ The above are a few points of the energy-saving design of our dust removal equipment manufacturers. The energy-saving design of dust removal equipment not only saves customers more costs, but also greatly reduces the future operation and maintenance costs! If you have more questions about the energy saving design points of dust removal equipment, please call us!