农业工程学报
農業工程學報
농업공정학보
2014年
10期
106-112
,共7页
程冬兵%张平仓%张长伟%任亮%牛俊%蔡道明%李翔
程鼕兵%張平倉%張長偉%任亮%牛俊%蔡道明%李翔
정동병%장평창%장장위%임량%우준%채도명%리상
土壤%侵蚀%模型%开挖面%生产建设项目
土壤%侵蝕%模型%開挖麵%生產建設項目
토양%침식%모형%개알면%생산건설항목
soils%erosion%models%excavated slope%production and construction project
工程开挖面是生产建设项目水土流失的主要来源之一,但工程开挖面土壤侵蚀定量研究非常有限,势必影响开挖面土壤侵蚀量及危害的准确评估。该研究通过理论分析与野外观测试验相结合,一方面借鉴 RUSLE 建模思路,理论推导开挖面次降雨土壤侵蚀模型,并对模型参数进行了详细分析,另一方面通过野外小区现场观测,探讨开挖面土壤侵蚀关键影响因素,将实测数据应用于模型及参数的率定和验证。结果显示,坡度、坡长、质地、以及降雨因子各参数均与单位面积土壤流失量呈显著相关,建立的开挖面次降雨土壤侵蚀模型,经实测数据率定与验证,模型预测效果较好。该模型针对性强,不仅原理简单,各参数均具有一定的物理意义,而且参数易获取,具有很好的实用性和可操作性,可为有效防治开挖面水土流失、落实水土流失防治责任及开展水土保持监督执法等提供科学依据。
工程開挖麵是生產建設項目水土流失的主要來源之一,但工程開挖麵土壤侵蝕定量研究非常有限,勢必影響開挖麵土壤侵蝕量及危害的準確評估。該研究通過理論分析與野外觀測試驗相結閤,一方麵藉鑒 RUSLE 建模思路,理論推導開挖麵次降雨土壤侵蝕模型,併對模型參數進行瞭詳細分析,另一方麵通過野外小區現場觀測,探討開挖麵土壤侵蝕關鍵影響因素,將實測數據應用于模型及參數的率定和驗證。結果顯示,坡度、坡長、質地、以及降雨因子各參數均與單位麵積土壤流失量呈顯著相關,建立的開挖麵次降雨土壤侵蝕模型,經實測數據率定與驗證,模型預測效果較好。該模型針對性彊,不僅原理簡單,各參數均具有一定的物理意義,而且參數易穫取,具有很好的實用性和可操作性,可為有效防治開挖麵水土流失、落實水土流失防治責任及開展水土保持鑑督執法等提供科學依據。
공정개알면시생산건설항목수토류실적주요래원지일,단공정개알면토양침식정량연구비상유한,세필영향개알면토양침식량급위해적준학평고。해연구통과이론분석여야외관측시험상결합,일방면차감 RUSLE 건모사로,이론추도개알면차강우토양침식모형,병대모형삼수진행료상세분석,령일방면통과야외소구현장관측,탐토개알면토양침식관건영향인소,장실측수거응용우모형급삼수적솔정화험증。결과현시,파도、파장、질지、이급강우인자각삼수균여단위면적토양류실량정현저상관,건립적개알면차강우토양침식모형,경실측수거솔정여험증,모형예측효과교호。해모형침대성강,불부원리간단,각삼수균구유일정적물리의의,이차삼수역획취,구유흔호적실용성화가조작성,가위유효방치개알면수토류실、락실수토류실방치책임급개전수토보지감독집법등제공과학의거。
With rapid industrialization and urbanization in China, water and soil losses caused by engineering constructions become very serious. Engineering excavated slope is one of the main sources of water and soil loss in construction sites. Generally, the underlying surface of excavated slope has high compactness and bulk density, the slope gradient varies in the range from 30° to 70°, the length of slope is approximately 10 meters, and the time of excavating is generally within two years. Because of underlying surfaces changing greatly after exposure, excavated slope not only has general features of water and soil losses of traditional soil slope, but also has its own unique features. Little knowledge on quantitative soil erosion of engineering excavated slope has certainly impacted our ability to accurately assess soil erosion and harmless of excavated slope. Therefore, it is urgent to carry out research to develop soil erosion model of engineering excavated slope. The objective of this study was to develop a model to predict soil erosion in the engineering excavated slope. The model was established based on soil erosion theory in combination with field experiments. It incorporated factors that could affect soil erosion such as characteristics of excavated slope, engineering operation of simple and practical principle, and rainfall event. RUSLE was used as a reference for our model development. Fifteen different plots of excavated slope in Zhanjiang of Guangdong province and ten different plots of excavated slope in Fangcheng of Henan province were constructed and used for model fit. Key factors of soil erosion for excavated slope were discussed based on the field site observations. The model and its parameters were tested by measured data. The results showed that erosive forces and underlying slope had important impact on soil erosion of excavated slope. There was significant (p<0.05) partial correlation or correlation between soil loss per unit area and factors such as steepness of slope, length of slope, soil texture, and rainfall intensity and duration. The correlation analysis results were used to validate the applicability of the model and parameters analyzed. The predicted values from soil erosion model of engineering excavated slope under one rainfall event agreed well with the measured data. The model was simple and its parameters were measurable and easy to be obtained, and had physical meaning. The model was also easy to use and very good in practicability. For the application across the whole country, the model need further test and improvement in different environmental conditions. Nevertheless, this model provided the valuable information for effective controlling water and soil loss in the excavated slopes, implementing related policy, and supervising and executing law on soil and water conservation.