农业工程学报
農業工程學報
농업공정학보
2013年
6期
106-112
,共7页
李硕%赖正清%王桥%王志华%李呈罡%宋鑫博
李碩%賴正清%王橋%王誌華%李呈罡%宋鑫博
리석%뢰정청%왕교%왕지화%리정강%송흠박
水文%径流%模拟%SWAT模型%平原河网%太湖湖西区
水文%徑流%模擬%SWAT模型%平原河網%太湖湖西區
수문%경류%모의%SWAT모형%평원하망%태호호서구
hydrology%runoff%computer simulation%SWAT model%Plain River network%the area of western Taihu Lake
目前普遍使用的基于SWAT(soil and water assessment tool)模型的分布式建模方法仅适用于山地、丘陵等高差较大的地区,对于具有复杂水文结构特点的平原河网区尚无有效的解决方案.该文选择太湖流域湖西区作为研究区,基于SWAT模型探索出一套完整的针对平原河网区的分布式建模方案.该方案采用概化、打断的方式将交叉、环状河网处理成单一的枝状河网,采用按河道分流比例跨子流域调水的方式来还原原始河道的传输过程,采用添加“虚拟水库”的方式来模拟人工圩区内外的水量交换.通过对太湖湖西区2008-2010年的月均径流量进行模拟验证,根据模拟值和观测值计算的荣登桥、胡家圩及宜兴3个水文站的相关系数r和纳什(Nash-Sutcliffe)系数Ens分别为0.94、0.95、0.93和0.84、0.80、0.67,说明了这种建模方法在平原河网区具有较好的适用性.
目前普遍使用的基于SWAT(soil and water assessment tool)模型的分佈式建模方法僅適用于山地、丘陵等高差較大的地區,對于具有複雜水文結構特點的平原河網區尚無有效的解決方案.該文選擇太湖流域湖西區作為研究區,基于SWAT模型探索齣一套完整的針對平原河網區的分佈式建模方案.該方案採用概化、打斷的方式將交扠、環狀河網處理成單一的枝狀河網,採用按河道分流比例跨子流域調水的方式來還原原始河道的傳輸過程,採用添加“虛擬水庫”的方式來模擬人工圩區內外的水量交換.通過對太湖湖西區2008-2010年的月均徑流量進行模擬驗證,根據模擬值和觀測值計算的榮登橋、鬍傢圩及宜興3箇水文站的相關繫數r和納什(Nash-Sutcliffe)繫數Ens分彆為0.94、0.95、0.93和0.84、0.80、0.67,說明瞭這種建模方法在平原河網區具有較好的適用性.
목전보편사용적기우SWAT(soil and water assessment tool)모형적분포식건모방법부괄용우산지、구릉등고차교대적지구,대우구유복잡수문결구특점적평원하망구상무유효적해결방안.해문선택태호류역호서구작위연구구,기우SWAT모형탐색출일투완정적침대평원하망구적분포식건모방안.해방안채용개화、타단적방식장교차、배상하망처리성단일적지상하망,채용안하도분류비례과자류역조수적방식래환원원시하도적전수과정,채용첨가“허의수고”적방식래모의인공우구내외적수량교환.통과대태호호서구2008-2010년적월균경류량진행모의험증,근거모의치화관측치계산적영등교、호가우급의흥3개수문참적상관계수r화납십(Nash-Sutcliffe)계수Ens분별위0.94、0.95、0.93화0.84、0.80、0.67,설명료저충건모방법재평원하망구구유교호적괄용성.
Distributed hydrological modeling plays an important role in water resource management and regional non-point source pollution assessment. The Soil and Water Assessment Tool (SWAT) is a popular modeling tool for understanding regional hydrological processes. However, the general approach based on the SWAT model was only applicable to the mountain and hilly dominated area. There is no effective way to modeling the hydrologic process in plain river network regions, which is characterized by large flat areas, consisted of many lakes and artificially hydrological polders, and intersected stream networks, etc. The existing methods cannot effectively extract the channels in flat and pit areas, parallel channels or discontinuous rivers and the definition error of the catchment areas. To overcome these problems, we developed a novel method for modeling the distributed spatial discretization of the plain river network area based on the SWAT model. There are three key techniques are discussed:making the rings and crossed rivers to dendritic stream networks by cutting the river ways shortly, restoring the distribution of water between reaches by transferring water from one reach to another one on the basis of flow rate of each reach and simulating the exchange of water inside and outside of the polders according to the scheduled rules of the polder areas by adding a‘virtual reservoirs’within the SWAT model. In this paper, the typical plain river network region located in western Taihu watershed was chosen as the study area, and a large number of basic geographic data such as topography, soil, climate and land use were collected and parameterized. The modeling procedures were used to simulate the monthly runoff of the area of western Taihu Lake from the year of 2008 to 2010, and the applicability of the method to the plain river network region was also verified. The simulated results matched mostly well to the observed data of Rongdengqiao, Hujiawei, and Yixing hydrological stations. The calculated Nash–Sutcliffe efficiency coefficient and correlation coefficient of three hydrological stations were 0.84, 0.80, 0.67 and 0.94, 0.95, 0.93, respectively. It indicated that our developed framework for the SWAT model was practical and capable of representing the hydrological processes in the plain river network regions.
