长江流域资源与环境
長江流域資源與環境
장강류역자원여배경
RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN
2001年
2期
159-164
,共6页
贺宝根%周乃晟%胡雪峰%高效江%王少平
賀寶根%週迺晟%鬍雪峰%高效江%王少平
하보근%주내성%호설봉%고효강%왕소평
降雨径流%非点源污染%农田降雨径流污染模型%上海郊区
降雨徑流%非點源汙染%農田降雨徑流汙染模型%上海郊區
강우경류%비점원오염%농전강우경류오염모형%상해교구
农田降雨径流污染是非点源污染研究中的一个重要问题,估算其发生负荷的难度很大。通过对农田降雨径流污染模型结构的理解和适当简化不可直接建模的部分,对农田非点源污染物输出的重要环节——降雨径流和污染物迁移进行了模拟。根据实测资料对SCS法的部分参数作了修正,使小块农田的降雨径流关系适合上海的区域自然地理条件;采用比较完善的径流试验资料建立了相应的径流单位线;并利用水流流速与固体颗粒被冲刷强度的关系,选择合适的试验资料,分析得到了径流过程与氮素流失浓度的相关关系,从而建立了以修正的SCS法、径流单位线和径流过程与氮素流失浓度的关系为基础的农田降雨径流污染模型。在具备较长系列降雨量资料的条件下,该模型确定了不同降雨量频率代表年份上海郊区农田氮素的年流失量。
農田降雨徑流汙染是非點源汙染研究中的一箇重要問題,估算其髮生負荷的難度很大。通過對農田降雨徑流汙染模型結構的理解和適噹簡化不可直接建模的部分,對農田非點源汙染物輸齣的重要環節——降雨徑流和汙染物遷移進行瞭模擬。根據實測資料對SCS法的部分參數作瞭脩正,使小塊農田的降雨徑流關繫適閤上海的區域自然地理條件;採用比較完善的徑流試驗資料建立瞭相應的徑流單位線;併利用水流流速與固體顆粒被遲刷彊度的關繫,選擇閤適的試驗資料,分析得到瞭徑流過程與氮素流失濃度的相關關繫,從而建立瞭以脩正的SCS法、徑流單位線和徑流過程與氮素流失濃度的關繫為基礎的農田降雨徑流汙染模型。在具備較長繫列降雨量資料的條件下,該模型確定瞭不同降雨量頻率代錶年份上海郊區農田氮素的年流失量。
농전강우경류오염시비점원오염연구중적일개중요문제,고산기발생부하적난도흔대。통과대농전강우경류오염모형결구적리해화괄당간화불가직접건모적부분,대농전비점원오염물수출적중요배절——강우경류화오염물천이진행료모의。근거실측자료대SCS법적부분삼수작료수정,사소괴농전적강우경류관계괄합상해적구역자연지리조건;채용비교완선적경류시험자료건립료상응적경류단위선;병이용수류류속여고체과립피충쇄강도적관계,선택합괄적시험자료,분석득도료경류과정여담소류실농도적상관관계,종이건립료이수정적SCS법、경류단위선화경류과정여담소류실농도적관계위기출적농전강우경류오염모형。재구비교장계렬강우량자료적조건하,해모형학정료불동강우량빈솔대표년빈상해교구농전담소적년류실량。
Farmland precipitation-runoff nonpoint pollution is one of themost important problems in nonpoint pollution problem. It is very difficult to estimate its loading. Through deeply studying model construct, the authors simplify part item, which couldn' t. set up model directly. The process of precipitation-runoff and pollutant transportation was simulated. After analyzing data of real measure, part parameters of SCS was amended and the relationship of precipitation-runoff suiting physical geography of small farmland in Shanghai was made. Using excellent data of precipitation-runoff, the anthors found the unit line of runoff. According to similar changing relationship between water velocity and solid particulate matter flowing intensity, selecting suitable data, they researched and got correlated between course of precipitation-runoff and concentration of nitrogen pollutant transportation. Basing these working, we set up farmland precipitation-runoff nonpoint pollution model basing on amended SCS, unit line of runoff, relationship of process of precipitation-runoff and concentration of nitrogen pollutant transportation. When getting long series data of precipitation, the model could estimate the annual loss of farmland nitrogen in different model age on frequency of precipitation.
