广东水利水电
廣東水利水電
엄동수이수전
GUANGDONG WATER RESOURCES AND HYDROPOWER
2014年
3期
38-44
,共7页
曾红彪%余宏明%陈鹏宇%彭祖武
曾紅彪%餘宏明%陳鵬宇%彭祖武
증홍표%여굉명%진붕우%팽조무
栾川%暴雨泥石流%背景因子%功效系数法%预警
欒川%暴雨泥石流%揹景因子%功效繫數法%預警
란천%폭우니석류%배경인자%공효계수법%예경
Luanchuan County%rainstorm debris flow%background factor%efficacy coefficient method%early warning
以栾川县2010年7月24日暴雨泥石流为研究对象,对单沟泥石流进行预警研究。在参考前人研究成果及野外调查分析的基础上,结合栾川县降雨资料分析结果,选取前5d间接雨量、24h最大降雨量、1h最大降雨量、松散物质储量、山坡坡度、沟床比降、沟床弯曲系数、补给长度比和植被覆盖率9个指标,建立了基于地质背景条件与降雨因素相耦合的泥石流预警模型。采用三标度AHP法对相关因子进行赋权,采用功效系数法确定预警因子的单项功效系数,并加权求和确定总功效系数,根据总功效系数与泥石流预警等级的对应关系,对研究区单沟泥石流进行预警。预警结果基本符合“7.24”特大暴雨下的泥石流历史灾害发生规律,表明此预警模型是合理的,适用于对栾川地区泥石流预警。
以欒川縣2010年7月24日暴雨泥石流為研究對象,對單溝泥石流進行預警研究。在參攷前人研究成果及野外調查分析的基礎上,結閤欒川縣降雨資料分析結果,選取前5d間接雨量、24h最大降雨量、1h最大降雨量、鬆散物質儲量、山坡坡度、溝床比降、溝床彎麯繫數、補給長度比和植被覆蓋率9箇指標,建立瞭基于地質揹景條件與降雨因素相耦閤的泥石流預警模型。採用三標度AHP法對相關因子進行賦權,採用功效繫數法確定預警因子的單項功效繫數,併加權求和確定總功效繫數,根據總功效繫數與泥石流預警等級的對應關繫,對研究區單溝泥石流進行預警。預警結果基本符閤“7.24”特大暴雨下的泥石流歷史災害髮生規律,錶明此預警模型是閤理的,適用于對欒川地區泥石流預警。
이란천현2010년7월24일폭우니석류위연구대상,대단구니석류진행예경연구。재삼고전인연구성과급야외조사분석적기출상,결합란천현강우자료분석결과,선취전5d간접우량、24h최대강우량、1h최대강우량、송산물질저량、산파파도、구상비강、구상만곡계수、보급장도비화식피복개솔9개지표,건립료기우지질배경조건여강우인소상우합적니석류예경모형。채용삼표도AHP법대상관인자진행부권,채용공효계수법학정예경인자적단항공효계수,병가권구화학정총공효계수,근거총공효계수여니석류예경등급적대응관계,대연구구단구니석류진행예경。예경결과기본부합“7.24”특대폭우하적니석류역사재해발생규률,표명차예경모형시합리적,괄용우대란천지구니석류예경。
Luanchuan County's“7.24”rainstorm debris flow is taken as the research object to study on early warning of single gully debris flow .In reference to the previous research results and the analysis of field investigation , and combining the rainfall data's a-nalysis results of Luanchuan , such as indirect rainfall before 5d, 24h maximum rainfall, 1h maximum rainfall, loose material re-serves, hill slop, gully bed ratio of slops, gully bed bending coefficient, supply length, and vegetation cover are selected, to estab-lish an early warning model of single gully debris flow based on the geological background conditions coupled with rainfall factors .By using three-scale AHP method to empower the relevant factors , determining the single efficacy coefficient of early warning factor with efficacy coefficient method , and weighting sum to determine the total efficiency coefficient , the single gully debris flow around the study area are early warned based on the corresponding relationship between total efficiency coefficient and debris flow warning level.The warning results are basically consistent with the regularity of the historical disasters of “7.24”rainstorm debris flow, which shows that the early warning model is reasonable , and suitable for warning the debris flow around Luanchuan area .