黄土区工程堆积体陡坡坡面径流调控工程措施的减沙效应
S157.1; 定量分析减少径流和改变水沙关系在泥沙调控中的不同作用,对于深刻理解径流调控措施的水土保持效益具有重要意义.以黄土区工程堆积体陡坡坡面(36°)为例,探讨了野外模拟径流冲刷试验条件下,不同工程措施及其组合调控坡面径流的水沙效应及其作用效率.结果表明:1)不同工程措施均能较好地调控坡面径流侵蚀过程,不同情形下的产流时间控制比为 2~20,径流量控制比为 0.45~0.78,产沙量控制比为 0.20~0.59;平均含沙量控制比为0.38~0.79;2)减流控沙作用是工程措施调控坡面侵蚀产沙的主要原因,水沙关系调沙作用则受减流控沙作用的制约;3)水平阶类措施的水沙关系调沙量与减流控沙量...
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| Published in | 农业工程学报 Vol. 35; no. 15; pp. 101 - 109 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | Chinese |
| Published |
河南大学环境与规划学院 环境与规划国家级实验教学示范中心,开封,475004%长江勘测规划设计研究有限责任公司,武汉,430010%西北农林科技大学水土保持研究所,杨凌,712100
01.08.2019
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1002-6819 |
| DOI | 10.11975/j.issn.1002-6819.2019.15.014 |
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| Abstract | S157.1; 定量分析减少径流和改变水沙关系在泥沙调控中的不同作用,对于深刻理解径流调控措施的水土保持效益具有重要意义.以黄土区工程堆积体陡坡坡面(36°)为例,探讨了野外模拟径流冲刷试验条件下,不同工程措施及其组合调控坡面径流的水沙效应及其作用效率.结果表明:1)不同工程措施均能较好地调控坡面径流侵蚀过程,不同情形下的产流时间控制比为 2~20,径流量控制比为 0.45~0.78,产沙量控制比为 0.20~0.59;平均含沙量控制比为0.38~0.79;2)减流控沙作用是工程措施调控坡面侵蚀产沙的主要原因,水沙关系调沙作用则受减流控沙作用的制约;3)水平阶类措施的水沙关系调沙量与减流控沙量呈线性正相关,当减流控沙量超过一定临界值时,水沙关系才开始发挥调沙作用;水平沟类措施的水沙关系调沙量与减流控沙量呈二次函数关系,水沙关系调沙量存在极大值;4)水平沟类措施调控泥沙的作用效率高于水平阶类措施,水平沟+鱼鳞坑的组合可很好地发挥减流控沙和水沙关系调沙作用的潜力(55%),使二者在较高的水平上维持相对平衡;因此,不同工程措施与组合的实际应用应以具体的水土保持效益和防治目标为布设依据.研究可为堆积体陡坡治理的工程措施优化提供理论参考. |
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| AbstractList | S157.1; 定量分析减少径流和改变水沙关系在泥沙调控中的不同作用,对于深刻理解径流调控措施的水土保持效益具有重要意义.以黄土区工程堆积体陡坡坡面(36°)为例,探讨了野外模拟径流冲刷试验条件下,不同工程措施及其组合调控坡面径流的水沙效应及其作用效率.结果表明:1)不同工程措施均能较好地调控坡面径流侵蚀过程,不同情形下的产流时间控制比为 2~20,径流量控制比为 0.45~0.78,产沙量控制比为 0.20~0.59;平均含沙量控制比为0.38~0.79;2)减流控沙作用是工程措施调控坡面侵蚀产沙的主要原因,水沙关系调沙作用则受减流控沙作用的制约;3)水平阶类措施的水沙关系调沙量与减流控沙量呈线性正相关,当减流控沙量超过一定临界值时,水沙关系才开始发挥调沙作用;水平沟类措施的水沙关系调沙量与减流控沙量呈二次函数关系,水沙关系调沙量存在极大值;4)水平沟类措施调控泥沙的作用效率高于水平阶类措施,水平沟+鱼鳞坑的组合可很好地发挥减流控沙和水沙关系调沙作用的潜力(55%),使二者在较高的水平上维持相对平衡;因此,不同工程措施与组合的实际应用应以具体的水土保持效益和防治目标为布设依据.研究可为堆积体陡坡治理的工程措施优化提供理论参考. |
| Abstract_FL | It is of significant sense to quantitatively distinguish the different role of decreasing runoff and changing flow-sediment relationship in sediment control, which will be helpful to profoundly understand the soil and water conservation benefits of runoff regulation measures. In order to explore the water-sediment effects and associated control efficiency of different engineering measures and their combinations in regulating runoff yield and sediment export from the deposit slope, a series of simulated runoff scouring experiments under the control of different engineering measures were conducted on a steep deposit slope (36°) along the Shenmu-Fugu Expressway in the loessial region of China. Several types of traditional engineering measures were designed in the study, among which individual measures included level terraces, level trenches, and fish-scale pits. In order to optimize the layouts of engineering measures on the slope, combined measures of level terraces +level trenches, level trenches + fish-scale pits, and level trenches+ fish-scale pits were also designed. Closed runoff plots with a size of 2.5×12 m2 were established on the deposit slope, clean water was added at the top of the plot with an inflow rate of 25 L/min to simulate surface runoff processes. Runoff and sediment was funneled through a PVC tube down to a bucket with a radius of 0.49 m and a height of 1 m. Runoff and sediment samples from the plots were collected by were taken using1000 mL plastic bottles every 1 min in initial 3 min of each run and then every 2 min for the rest of the duration, for determining sediment concentration. Therefore, the runoff and sediment process was calculated under different scenarios. The results showed that slope runoff and erosion were well controlled by engineering measures, and the control ratio of runoff commencement time, runoff, sediment export, and mean sediment concentration varied from 2 to 20, 0.45 to 0.78, 0.20 to 0.59, and 0.38 to 0.79 under different situations, respectively. Overall, sediment reduction induced by decreasing runoff was the main cause for sediment reduction benefits by engineering measures. However, sediment reduction induced by flow-sediment relationship changes was highly dependent on the behavior of decreasing runoff in reducing sediment output. For level terrace-based measures, sediment reduction induced by flow-sediment relationship changes was positively and linearly correlated to sediment reduction induced by decreasing runoff. The sediment regulation effects of altering flow-sediment relationship initiated, when sediment reduction induced by decreasing runoff exceeded a certain threshold. For level trench-based measures, there was a quadratic function relationship between sediment reduction induced by flow-sediment relationship changes and sediment reduction induced by decreasing runoff. Furthermore, a climax existed for sediment reduction induced by flow-sediment changes. In terms of sediment control, the level trench-based measures were more efficient than level terrace-based measures. In the case of the combination of level trench and fish-scale pit, the potential of decreasing runoff and altering flow-sediment relationship in reducing sediment output was well exerted with the efficiency coefficient being 55%. It indicated that relative equilibrium between the two causes for sediment reduction was kept at a high level under this combination. Therefore, the application of different engineering measures and their combinations should be considered based on specific soil and water conservation benefits and erosion control goals. The study provides theoretical references for the optimization of engineering measure in soil and water conservation management of steep deposit slope. |
| Author | 黄增玉 袁琳 高照良 张乐涛 董俊武 朱雅琴 王慧慧 李婉璐 田红卫 唐林昊 |
| AuthorAffiliation | 河南大学环境与规划学院 环境与规划国家级实验教学示范中心,开封,475004%长江勘测规划设计研究有限责任公司,武汉,430010%西北农林科技大学水土保持研究所,杨凌,712100 |
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| Author_FL | Li Wanlu Zhang Letao Dong Junwu Zhu Yaqin Gao Zhaoliang Huang Zengyu Tang Linhao Wang Huihui Yuan Lin Tian Hongwei |
| Author_FL_xml | – sequence: 1 fullname: Zhang Letao – sequence: 2 fullname: Dong Junwu – sequence: 3 fullname: Yuan Lin – sequence: 4 fullname: Zhu Yaqin – sequence: 5 fullname: Huang Zengyu – sequence: 6 fullname: Li Wanlu – sequence: 7 fullname: Wang Huihui – sequence: 8 fullname: Tang Linhao – sequence: 9 fullname: Tian Hongwei – sequence: 10 fullname: Gao Zhaoliang |
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| DocumentTitle_FL | Sediment-reducing benefits by runoff regulation under engineering measures in steep slope of abandoned soil deposits in Chinese loessial region |
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| Keywords | 侵蚀 runoff efficiency coefficient sediment flow-sediment relationship sediment-reducing capacity abandoned soil deposits 径流 erosion 泥沙 弃土堆积体 水沙关系 泥沙调控能力 效率系数 |
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| Title | 黄土区工程堆积体陡坡坡面径流调控工程措施的减沙效应 |
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