工业喷嘴的工程简述:
内容来源:未知 发布时间:2017/12/01 浏览次数:
上海斐卓Feizhuo工业喷嘴的专业资料
工业喷嘴的工程简述:
斐卓Feizhuo工业喷嘴的流量:
在工业喷嘴的流量中全部以水为基础,因为每种液体的比重都会影响它的流率,目录列表中所示的流量必须是乘以适用于喷雾液体比重的换算系数,喷嘴的喷雾流量因喷雾压力而变化。流量比等于压力比,流量与压力成正比。
工业喷嘴的喷雾角度和覆盖范围
我们根据以往的经验并将这些经验以数据的形式展现出来。这些理论覆盖范围是根据喷雾夹角和喷嘴口距离而计算得出。所有列出的数据为基于喷雾角度保持不变的假设,在喷嘴的实际应用中,表内所列的喷雾角度不适用于长喷雾距离。所有性能数据以水为标准。
在喷嘴的实际喷雾中,喷嘴的有效喷雾角度以喷雾距离而定,如果要求的喷雾覆盖范围是很关键的,可向斐卓Feizhuo喷雾系统公司索取。当液体比谁黏,黏度较高时,形成的喷雾角度相当较小(甚至有可能形成液柱流),其角度取决于黏度,喷嘴流量和喷射压力。当喷嘴的表面张力低于水的液体产生相对宽大于按水所列出的喷雾角度。
冲击力:
喷嘴对物体表面的冲击力,取决于喷雾形状分布和喷雾角度;
喷雾水理论总冲击力=(公斤-力)=0.024*(升/分,在喷射压力下)*根号下喷射压力,(公斤/厘米2)
Shanghai zhuo Fiji Feizhuo industrial nozzle professional information
Project description: industrial nozzle
Industrial nozzle flow:
In industrial nozzle flow all based on the water, because the proportion of each liquid will influence it's flow rate, the directory list is shown in the flow must be multiplied by the applicable to spray the conversion coefficient of liquid ratio, nozzle spray flow due to the spray pressure changes.Flow ratio is equal to the pressure ratio, the flow is proportional to the pressure.
Industrial nozzle spray Angle and coverage
Based on past experience and our experience in the form of data.Coverage of these theories are based on the spray Angle and jet distance and calculated.All listed data is based on the assumption of spray Angle remains unchanged, in the practical application of the nozzle, spray Angle as shown in the table is not applicable to spray long distance.All performance data on the basis of water.
In the actual spray nozzle, the nozzle of the effective spray Angle to spray distance, if the requirements of the spray coverage is key, can get the Fijian zhuo Feizhuo spray system.When the liquid ratio who stick, high viscosity, the formation of spray Angle is quite small (might even form a liquid column flow), its Angle depends on the viscosity, the nozzle flow rate and injection pressure.When the nozzle below the surface tension of the liquid water produced relatively lenient in listed according to the water spray Angle.
Impact:
The impact of the nozzle to the surface, depending on the shape of spray distribution and spray Angle.
Spray water theory always impact = (kg) = 0.024 * (liters/min, under pressure from jet) * square root of the injection pressure, (kg/cm2)
工业喷嘴的工程简述:
斐卓Feizhuo工业喷嘴的流量:
在工业喷嘴的流量中全部以水为基础,因为每种液体的比重都会影响它的流率,目录列表中所示的流量必须是乘以适用于喷雾液体比重的换算系数,喷嘴的喷雾流量因喷雾压力而变化。流量比等于压力比,流量与压力成正比。
工业喷嘴的喷雾角度和覆盖范围
我们根据以往的经验并将这些经验以数据的形式展现出来。这些理论覆盖范围是根据喷雾夹角和喷嘴口距离而计算得出。所有列出的数据为基于喷雾角度保持不变的假设,在喷嘴的实际应用中,表内所列的喷雾角度不适用于长喷雾距离。所有性能数据以水为标准。
在喷嘴的实际喷雾中,喷嘴的有效喷雾角度以喷雾距离而定,如果要求的喷雾覆盖范围是很关键的,可向斐卓Feizhuo喷雾系统公司索取。当液体比谁黏,黏度较高时,形成的喷雾角度相当较小(甚至有可能形成液柱流),其角度取决于黏度,喷嘴流量和喷射压力。当喷嘴的表面张力低于水的液体产生相对宽大于按水所列出的喷雾角度。
冲击力:
喷嘴对物体表面的冲击力,取决于喷雾形状分布和喷雾角度;
喷雾水理论总冲击力=(公斤-力)=0.024*(升/分,在喷射压力下)*根号下喷射压力,(公斤/厘米2)
Shanghai zhuo Fiji Feizhuo industrial nozzle professional information
Project description: industrial nozzle
Industrial nozzle flow:
In industrial nozzle flow all based on the water, because the proportion of each liquid will influence it's flow rate, the directory list is shown in the flow must be multiplied by the applicable to spray the conversion coefficient of liquid ratio, nozzle spray flow due to the spray pressure changes.Flow ratio is equal to the pressure ratio, the flow is proportional to the pressure.
Industrial nozzle spray Angle and coverage
Based on past experience and our experience in the form of data.Coverage of these theories are based on the spray Angle and jet distance and calculated.All listed data is based on the assumption of spray Angle remains unchanged, in the practical application of the nozzle, spray Angle as shown in the table is not applicable to spray long distance.All performance data on the basis of water.
In the actual spray nozzle, the nozzle of the effective spray Angle to spray distance, if the requirements of the spray coverage is key, can get the Fijian zhuo Feizhuo spray system.When the liquid ratio who stick, high viscosity, the formation of spray Angle is quite small (might even form a liquid column flow), its Angle depends on the viscosity, the nozzle flow rate and injection pressure.When the nozzle below the surface tension of the liquid water produced relatively lenient in listed according to the water spray Angle.
Impact:
The impact of the nozzle to the surface, depending on the shape of spray distribution and spray Angle.
Spray water theory always impact = (kg) = 0.024 * (liters/min, under pressure from jet) * square root of the injection pressure, (kg/cm2)
