基于不同湿润速度下PAM水解过程对砂壤土入渗的影响

韩冬; 魏占民; 于健; 宋日权

文章摘要

韩冬,魏占民,于健,宋日权.基于不同湿润速度下PAM水解过程对砂壤土入渗的影响[J].农业环境科学学报,2015,34(6):1174-1180.

基于不同湿润速度下PAM水解过程对砂壤土入渗的影响

Effect of Polyacrylamide Hydrolysis on Sandy Loam Infiltration Under Different Wetting Rates

投稿时间：2015-01-15

DOI：10.11654/jaes.2015.06.022

中文关键词: 湿润速度 PAM 水解过程入渗

英文关键词: wetting rate polyacrylamide hydrolysis process infiltration

基金项目:国家自然科学基金(51469024);国家国际科技合作专项项目(2014DFA71080)

作者	单位	E-mail
韩冬	内蒙古农业大学水利与土木建筑工程学院, 呼和浩特 010018
魏占民	内蒙古农业大学水利与土木建筑工程学院, 呼和浩特 010018	wei_zhanmin@aliyun.com
于健	内蒙古水利科学研究院, 呼和浩特 010020
宋日权	内蒙古水利科学研究院, 呼和浩特 010020

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中文摘要:

为揭示土壤结构改良剂聚丙烯酰胺(Polyacrylamide,PAM)在不同湿润速度下对土壤入渗的影响机制, 通过土槽入渗试验, 研究混施干粉PAM(0、22.5、45 kg·hm^-2)的砂壤土在不同湿润速度(2.5 mm·min^-1和6.25 mm·min^-1)下土壤入渗参数的变化, 通过测定非毛管孔隙率、导气率和团聚体含量来描述土壤结构特征。结果表明:湿润速度显着影响土壤累计入渗量和稳定入渗率, 高速湿润条件下的累计入渗量和稳定入渗率比低速度湿润条件分别降低了23.75%和26.70%.在同一湿润速度下, PAM在不同阶段对土壤入渗的影响截然相反:湿润阶段, 在PAM作用下土壤累计入渗量、土壤非毛管孔隙率和导气率等均有不同程度降低, 且PAM用量越大降低幅度越大, 此时正处在逐渐水解过程中的PAM分子长链堵塞了土壤孔隙, 抑制了土壤水流运动;连续流阶段, PAM能够提高土壤稳定入渗率、土壤非毛管孔隙率和导气率, 且PAM用量越大提高幅度越大, 此时PAM分子已经完全水解, 发挥了稳定土壤结构的作用, 增加了土壤结构中水稳性团聚体含量, 从而促进水流入渗。研究不同湿润速度下PAM水解过程对砂壤土入渗性能的影响, 可以为PAM在改良土壤结构方面更广泛的应用提供理论依据。

英文摘要:

In order to reveal the influence of polyacrylamide(PAM) on soil infiltration under different wetting rates, 3 PAM amounts(0 kg·hm^-2, 22.5 kg·hm^-2 and 45 kg·hm^-2) and 2 water inflow rates(2.5 mm·min^-1 and 6.25 mm·min^-1) were used in soil box to study the variation of soil infiltration parameters and to characterize soil structures by measuring capillary porosity, gas conductivity and aggregate content. Cumulative infiltration amount and stable infiltration rate were significantly influenced by wetting rates,and they were respectively 23.75% and 26.70% lower under high wetting rate than under low wetting rate. Under the same wetting rate, PAM had two quite different effects on soil infiltration over wetting course. At wetting phase, PAM was hydrolyzing and its long-chain molecules clogged soil pores and thus inhibited soil water movement, resulting in decreases in the cumulative soil infiltration, soil non-capillary porosity and conductivity gas rate, with more reduction at higher PAM rate. At continuous flow phase, PAM was completely hydrolyzed and it thus increased soil structure stability and water-stable aggregates, thereby improving soil infiltration rate, soil non-capillary porosity and conductivity gas rate in a dose-effect manner. These results would provide theoretical evidence for PAM application to improvement of soil structure.

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