CN101458243B - 造纸网污染程度的测试方法 - Google Patents

造纸网污染程度的测试方法 Download PDF

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CN101458243B
CN101458243B CN 200710172285 CN200710172285A CN101458243B CN 101458243 B CN101458243 B CN 101458243B CN 200710172285 CN200710172285 CN 200710172285 CN 200710172285 A CN200710172285 A CN 200710172285A CN 101458243 B CN101458243 B CN 101458243B
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CN101458243A (zh
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朱勇强
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Shanghai Aige Environmental Technology Co., Ltd.
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Abstract

本发明是涉及一种在造纸生产过程中造纸网污染程度的测试方法。它是通过测定滤网孔隙率P与滤水速率V而形成的定量综合评价成形网污染程度的新方法。滤网污染指数:PI=ΔP*ΔV*K*100,当PI≥64时,可继续使用;当PI<64时则应立即清洗造纸网。从而为使用者确定造纸网的清洗周期提供依据,有利于工人及时清洗造纸网,保证生产的正常进行。

Description

造纸网污染程度的测试方法
技术领域
本发明是涉及一种在造纸生产过程中造纸网污染程度的测试方法,它可以定量测定造纸网的污染程度,从而为使用者确定造纸网的清洗周期提供依据。 
技术背景 
在实际生产和使用过程中,成形网是造纸机上的重要器材,它影响浆料在纸机网部分布的均匀性,纸页成形状况及表面平整性,对最终成纸性能起着决定性的作用。然而在生产和加工的过程中,制浆中的胶粘剂和其他粘性沉积物等污染物吸附在网的表面,阻塞造纸网的孔眼,使其滤水阻力增大,影响纸页的成形;降低了聚酯网的寿命,增加成本;还影响了纸面的表面性能,产生网痕,引起质量下降,消耗增大等许多弊端。所以定期评定造纸网污染程度,有利于及时清洗造纸网,以保证生产正常进行。 
因此,在实际的生产中,若不能准确的测定造纸网的污染程度,清洗工作就不能及时完成,从而会降低纸机的工作效率及纸张的质量,影响造纸厂的正常生产。迄今为止,评价造纸网污染程度方法的相关专利文献尚未见报道。 
发明内容
本发明的目的在于提供一种评价造纸网污染程度的方法,且该方法能够定量地评价出造纸网污染的程度,确定造纸网的工作状况,有利于工人 及时清洗造纸网,保证生产的正常进行。 
为了达到上述目的,本发明提出了通过测定滤网孔隙率与滤水速率的方法来评价造纸网污染程度,形成了新的定量综合评价成形网污染程度的方法。一般地,随着造纸网污染程度地增加,网子的空隙率会明显下降,滤水的速度也会减慢。可见,造纸网孔隙率的变化在很大程度上可以反映造纸网的污染程度。 
因此,我们通过对造纸网滤网孔隙率与滤水速率的测定,可进行造纸网污染程度的有效评价。 
根据上述构思,本发明采用下述技术方案: 
假设,某一造纸网的孔隙率使用前为P1,滤水速率为V1。使用一段时间后孔隙率为P2,滤水速率为V2。 
则造纸网的污染指数可以定义为: 
PI=(P1-P2)(V1-V2)*K*100/(P1*V1)-------------① 
式中:K为实验常数(根据不同类型的造纸网来确定) 
通常情况下,可设定K=1.0。 
令ΔP=(P1-P2)/P1,ΔV=(V1-V2)/V1 
则PI=ΔP*ΔV*K*100-------------------------------② 
式中:ΔP代表孔隙变化率 
ΔV代表滤水速率的变化率 
一般地,若ΔP≥80%,ΔV≥80%,即造纸网的孔隙变化率和滤水速率变化率均小于20%。则PI≥0.8*0.8*1.0*100=64,造纸网清洁度保持在原有的80%以内,因而可继续使用;反之PI<64时,则应立即清洗造纸网,以保证产品质量及生产的正常运行。 
本发明方法具有如下显而易见的突出特点和显著优点: 
1.本方法操作简单,应用方便,有利于造纸企业的推广使用。 
2.本方法用孔隙率来直接测定网的污染程度,测定结果不受其它相关因素的干扰,真实性与可靠性较高,具有实际应用价值。 
附图说明
图1是本发明专利中一种用于测定滤水速率试验的装置示意图: 
1-盛水漏斗,2-测定用蒸馏水,3-待测滤网,4-衬网,5-计时器,6-数字阀,7-液位计,8-集液筒 
图2是本发明专利中一种用于测定孔隙率试验的装置示意图: 
9-比重天平,10-造纸网样品 
具体实施方式
1.试验设备 
(1)测定滤水速率的试验设备 
为了模拟纸机网部脱水过程,制做了试验设备(图1)。该试验设备由1-盛水漏斗,3-待测滤网,4-衬网,5-计时器,6-数字阀,7-液位计,8-集液筒等组成。 
(2)测定孔隙率的试验设备 
该试验设备由液体比重天平9和造纸网样品10组成(见图2)。 
2.试验方法 
(1)测定滤水速率的试验方法 
关好阀门,在盛水漏斗中加入蒸馏水1000ml,开数字阀到30%,此时计时器开始计时,待集液筒中水样体积达到200ml时,液位计给出信号,计时器停止计时,滤出200ml水所需的时间为t秒,V=200/t(ml/s)。 
(2)测定孔隙率的试验方法 
本实验用液体比重天平来测定造纸网的孔隙率。分别取污染前后造纸网样品各一张,尺寸为50mm*100mm,用蒸馏水作介质,测定其孔隙率P1和P2。 
孔隙率P%=(W3-W1)*100/(W3-W2) 
式中,W1:试样在空气中的重量(g) 
W2:试样浸没在蒸馏水中的重量(g) 
W3:试样吸水后在空气中的重量(g) 

Claims (1)

1.一种造纸网污染程度的测试方法,它是一种通过测定滤网孔隙率P与滤水速率V而形成的定量综合评价造纸网污染程度的方法,并定义污染指数为:PI=ΔP*ΔV*K*100,ΔP代表孔隙变化率,ΔV代表滤水速率的变化率,K为实验常数;当PI≥64时,继续使用,当PI<64时,立即清洗造纸网,其特征在于,
①孔隙变化率定义为ΔP=(P1-P2)/P1,公式中P1、P2分别是采用液体比重天平直接测定的造纸网孔隙率的数据,测定时的液体介质为蒸馏水,单位为“%”,
②滤水速率的变化率定义为:ΔV=(V1-V2)/V1,公式中V1、V2分别是采用滤水速率测定仪测定的造纸网滤水速率的数据,单位为“ml/s”,
所述的滤水速率测定仪由盛水漏斗(1)、待测滤网(3)、衬网(4)、计时器(5)、数字阀(6),液位计(7)与集液筒(8)组成,数字阀(6)安装在盛水漏斗(1)的排液管上,计时器(5)分别与数字阀(6)和液位计(7)相连。
CN 200710172285 2007-12-14 2007-12-14 造纸网污染程度的测试方法 Expired - Fee Related CN101458243B (zh)

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CN103884745B (zh) * 2012-12-21 2018-04-06 朱勇强 一种造纸系统离子积累指数的测定方法
CN105424571A (zh) * 2015-12-22 2016-03-23 天津市尚拓环保科技有限公司 一种反渗透进水水质的淤泥密度指数的测试方法
CN110332974B (zh) * 2017-11-16 2020-12-04 山东大学 一种潜流人工湿地水位探测仪及其探测方法

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EP0537140B1 (en) * 1990-07-05 1994-10-05 A. Ahlstrom Corporation Method and apparatus for manufacturing multilayer filter material
CN2844193Y (zh) * 2005-09-13 2006-12-06 安徽华辰造纸网股份有限公司 聚酯多层复合网

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