汉江上游金水河流域水电工程对流域水环境的影响
한강상유금수하류역수전공정대류역수배경적영향
Impact of hydropower project on water environment of Jinshui river basin in upper reaches of Hanjiang River
  • 万方数据
    水资源与水工程学报 수자원여수공정학보
    JOURNAL OF WATER RESOURCES AND WATER ENGINEERING
    2014年 2期 35-41 ,共7页

    卜红梅%张全发%王伟波

    복홍매%장전발%왕위파

    河流水质%水质分析%水环境%水电工程%金水河流域 河流水質%水質分析%水環境%水電工程%金水河流域
    하류수질%수질분석%수배경%수전공정%금수하류역
    water quality of river%water quality analysis%water environment%hydropower project%Jinshui river basin
    通过监测和实地调查,分析了汉江上游金水河流域水电工程对流域水环境的影响。结果表明:①电导率( EC)、总溶解性固体( TDS)、五日生化需氧量( BOD5)、重碳酸盐( HCO3-)、硫酸盐( SO42-)、总硬度( T-Hard)、溶解性金属元素Si、正磷酸盐(PO43--P)、总溶解性磷(TDP)的监测值季节性变化不显著;②化学需氧量(CODMn)、溶解性重金属元素Cr和As、营养物质PO43--P和TDP的含量在不同采样时期均不同程度的超标;③作为控制河流水化学特征的重要因素,水温( Temp)、pH 值与溶解氧( DO)分别与水环境中EC、TDS、CODMn、HCO3-、氯化物( Cl-)、硝酸盐( NO3-)、氟化物( F-)、As、Cr、Si、氨氮( NH4+-N)、硝酸盐氮( NO3--N)和PO43--P的监测值呈显著的线性相关。已建成的水电工程在一定程度上破坏了流域的连续性,减少了水体纳污能力,降低了河流水质。因此,在研究的基础上,提出解决水电开发与环境保护之间矛盾的合理建议,为汉江上游的流域生态系统管理提供依据。
    통과감측화실지조사,분석료한강상유금수하류역수전공정대류역수배경적영향。결과표명:①전도솔( EC)、총용해성고체( TDS)、오일생화수양량( BOD5)、중탄산염( HCO3-)、류산염( SO42-)、총경도( T-Hard)、용해성금속원소Si、정린산염(PO43--P)、총용해성린(TDP)적감측치계절성변화불현저;②화학수양량(CODMn)、용해성중금속원소Cr화As、영양물질PO43--P화TDP적함량재불동채양시기균불동정도적초표;③작위공제하류수화학특정적중요인소,수온( Temp)、pH 치여용해양( DO)분별여수배경중EC、TDS、CODMn、HCO3-、록화물( Cl-)、초산염( NO3-)、불화물( F-)、As、Cr、Si、안담( NH4+-N)、초산염담( NO3--N)화PO43--P적감측치정현저적선성상관。이건성적수전공정재일정정도상파배료류역적련속성,감소료수체납오능력,강저료하류수질。인차,재연구적기출상,제출해결수전개발여배경보호지간모순적합리건의,위한강상유적류역생태계통관리제공의거。
    Through monitoring and field survey ,the paper analyzed impact of hydropower project on water environment of Jinshui River basin in the upper reaches of Hanjiang River .The results indicated that①the variations of monitoring value of electrical conductivity (EC), total dissolved solids (TDS), five day bio-logical oxygen demand (BOD 5 ), bicarbonate (HCO3-), sulfate(SO 42-), total hardness (T-Hard), dis-solved Si, orthophosphate ( PO4 3--P) and total dissolved phosphorus( TDP) are not significant on season .②The values of chemical oxygen demand ( Mn) ( CODMn ), dissolved Cr and As, nutrient matters of PO 4 3--P and TDP have exceeded the guidelines in different sampling periods and extents .③As the main factors of controlling the hydrochemical characteristics of the river ,the monitoring values of water tempera-ture (Temp), pH, and dissolved oxygen (DO ) are linearly correlated with EC, TDS, COD Mn, HCO 3-, chloride (Cl -), nitrate (NO3-), fluoride(F -), As, Cr, Si, ammonical nitrogen (NH4+-N), nitrate ni-trogen( NO 3--N ) and PO4 3-P present significant linear correlation respectively.The completed hydropower projects damaged the continuity of watershed to a certain extent and reduced the capacity of pollutant carry -ing of water body and deteriorated the water quality of river.Accordingly , the paper put forward some rea -sonable suggestion so as to resolve the conflicts between hydropower development and environmental protec -tion ,which can provide the basis for watershed ecosystem management of the upstream of HanJiang river .
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