水利水电科技进展
水利水電科技進展
수이수전과기진전
ADVANCES IN SCIENCE AND TECHNOLOGY OF WATER RESOURCES
2013年
6期
29-32,51
,共5页
马栋和%王常明%黄如卉%刘忠富%马玉民
馬棟和%王常明%黃如卉%劉忠富%馬玉民
마동화%왕상명%황여훼%류충부%마옥민
黄土缓坡%降雨入渗%坡面冲刷%物理模型试验%渗流数值模拟
黃土緩坡%降雨入滲%坡麵遲刷%物理模型試驗%滲流數值模擬
황토완파%강우입삼%파면충쇄%물리모형시험%삼류수치모의
loess gentle slope%rainfall infiltration%slope surface erosion%physical simulation experiment%seepage numerical simulation
针对辽西地区黄土缓坡降雨冲蚀破坏严重的问题,结合野外现场调查、室内物理模拟试验及SEEP/W渗流数值模拟,监测了坡内湿润锋的发展趋势、坡面土体体积含水率的变化,研究了黄土缓坡的冲刷破坏特征及降雨入渗规律。研究结果表明:辽西地区黄土缓坡坡面在降雨冲蚀作用下,按横向坡面形态可分为V形、U形、梯形、三角形4种冲沟。随着降雨的持续,浸润深度逐渐加深,雨水在坡内的浸润线不平行于边坡线,呈现出上浅下深的规律。辽西黄土缓坡坡面经历短时间降雨冲刷时,主要产生表层面蚀破坏;经历长时间降雨冲刷时,坡脚被冲刷淘空,坡面产生陷穴,进而可诱发边坡灾害。
針對遼西地區黃土緩坡降雨遲蝕破壞嚴重的問題,結閤野外現場調查、室內物理模擬試驗及SEEP/W滲流數值模擬,鑑測瞭坡內濕潤鋒的髮展趨勢、坡麵土體體積含水率的變化,研究瞭黃土緩坡的遲刷破壞特徵及降雨入滲規律。研究結果錶明:遼西地區黃土緩坡坡麵在降雨遲蝕作用下,按橫嚮坡麵形態可分為V形、U形、梯形、三角形4種遲溝。隨著降雨的持續,浸潤深度逐漸加深,雨水在坡內的浸潤線不平行于邊坡線,呈現齣上淺下深的規律。遼西黃土緩坡坡麵經歷短時間降雨遲刷時,主要產生錶層麵蝕破壞;經歷長時間降雨遲刷時,坡腳被遲刷淘空,坡麵產生陷穴,進而可誘髮邊坡災害。
침대료서지구황토완파강우충식파배엄중적문제,결합야외현장조사、실내물리모의시험급SEEP/W삼류수치모의,감측료파내습윤봉적발전추세、파면토체체적함수솔적변화,연구료황토완파적충쇄파배특정급강우입삼규률。연구결과표명:료서지구황토완파파면재강우충식작용하,안횡향파면형태가분위V형、U형、제형、삼각형4충충구。수착강우적지속,침윤심도축점가심,우수재파내적침윤선불평행우변파선,정현출상천하심적규률。료서황토완파파면경력단시간강우충쇄시,주요산생표층면식파배;경력장시간강우충쇄시,파각피충쇄도공,파면산생함혈,진이가유발변파재해。
To solve the problem of serious loess gentle slope erosion caused by rainfall infiltration in western Liaoning, site investigation, laboratory physical simulation experiments, and SEEP/W numerical simulation were combined to monitor the development trend of the wetting front within the slope and the variation of the volumetric water content of the slope soil, and the characteristics of loess slope erosion and regularity of the rainfall infiltration were studied. The results show that, caused by the rainfall erosion, the cross-sectional shape of gullies of the loess gentle slope can be divided into four types:V-shaped, U-shaped, trapezoid, and triangle shapes. Along with a continuous rainfall, the depth of invasion increases gradually, but the infiltration lines of rainwater in the slope are not parallel to the slope edge lines, showing a law of less infiltration at the top and more infiltration at the bottom of the slope. When the western Liaoning loess slope is eroded by rainfall for a short period of time, it mainly produces surface erosion; but for prolonged rainfall erosion, the base of the slope becomes hollow and sinkholes appear on the slope surface, finally inducing slope disasters.