ν 瓦斯ν 空气ν 0C L(m) d(mm)ρ 瓦ρ 空ρΔ (mm)P0P孔(Pa)00 0.0000150.412406260.715 1.3 1.291 0.171013251400000 0.0000150.412504800.715 1.3 1.291 0.171013251400000 0.0000150.4513204320.715 1.31.29 0.171013251400000 0.0000150.4512304320.715 1.31.29 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.171013251400000 0.0000150.3904320.715 1.3 1.291 0.1710132514000管网总阻力=(1)+(2)数值250400.41、抽放瓦斯管摩擦阻力4、抽放泵流量计算H摩—管路的摩擦阻力,PaQb—抽采瓦斯泵的额定流量,L—管路长度,mQ0—标准状态下的混合瓦斯流量,m3/hT0—标准状态下的绝对温度,Kt—管路中的气体温度,℃Q—最大的设计抽采瓦斯抽采量,m3/minX—抽采泵入口处预计的瓦斯浓度d—管路内径,mmP—抽采泵入口绝对压力(Pa); ν 0—标准状态下的混合瓦斯运动粘度,m2/sρ —管道内混合瓦斯密度,kg/m3Δ —管路内壁的当量绝对粗糙度,mmP0—标准大气压力,101325PaP—管道内气体绝对压力,PaT—管路中的气体温度为t时的绝对温度,K 5.抽采泵工况流量Qg—工况状态下的抽采泵流量(m3/min);Qb—标准状态下抽采泵的计算流量(m3/min);(1)摩擦阻力合计(2)局部阻力0052025.00052.1921069PTTPdQLQdvdH)(摩KXQbQ=η00=PTTPQQbg0.82数值0%250η ——泵的机械效率,取80%K ——抽采能力富余系数,可取1.2~ 1.8t—抽采泵入口瓦斯的温度(℃)。T=273+tT—抽采泵入口瓦斯的绝对温度(K);6、真空度η z——真空度,%H ——瓦斯抽放泵所需压力,PaP =P d—H r%100101325 HzPTT0Q0(m3/h)t hf(Pa)8732529329324002013787325293293150020216数值87325293293120020254593658732529329330020208423087325293293270020024865873252932932700200873252932932700200873252932932700200873252932932700200873252932932700200873252932932700200小于B的母数 A欲求...
