OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

湖泊科学 2014

热分层对水库水质的季节性影响——以西安黑河水库为例

DOI: 10.18307/2014.0507

卢金锁,李志龙

Keywords: 深水水库,黑河水库,热分层指数,溶解氧,水体更新率

Full-Text Cite this paper Add to My Lib

Abstract:

深水水库作为城市的重要供水水源,通常由于热量在垂向水体上的不均匀分配形成热分层.热分层会阻碍垂向上水体交换引发水质分层现象,在冬季水库发生"翻库"之后,水体混合导致水库的整体水质下降.结合热分层指数可以客观、直接地表达水库热分层的稳定程度.综合水库的气温、水体更新率和水质参数(溶解氧、pH、总磷、氨氮)的年度变化,对陕西黑河水库20082010年的热分层状况进行研究.研究表明:水库的热分层形成会直接恶化底部水质尤其会加速底部水体中溶解氧的消耗;热分层的年度变化主要受气温控制,但在特定时期较大的水体更新率可以在一定程度上弱化水体热分层,减缓底部水质恶化.该结果可使水库管理者在水库分层最稳定、水质恶化最严重时期以人工调节水体更新率的方式弱化热分层,为保证水质安全提供参考.

References

[1]	吴莉莉,王惠民,吴时强.水库的水温分层及其改善措施.水电站设计,2007,23(3):97-100.
[2]	？al？？kan A, El？i ？.Effects of selective withdrawal on hydrodynamics of a stratified reservoir. Water Resources Management, 2009,23(7):1257-1273.
[3]	王煜,戴会超.大型水库水温分层影响及防治措施.三峡大学学报:自然科学版,2009,31(6):11-14.
[4]	Liu L, Liu D, Johnson DM et al. Effects of vertical mixing on phytoplankton blooms in Xiangxi Bay of Three Gorges Reservoir:implications for management. Water Research, 2012,46(7):2121-2130.
[5]	李凤彬.洋河水库热成层对水质的影响.给水排水,1999,25(9):19-21.
[6]	袁文权,张锡辉,张丽萍.不同供氧方式对水库底泥氮磷释放的影响.湖泊科学,2004,16(1):28-34.
[7]	张丽萍,袁文权,张锡辉.底泥污染物释放动力学研究.环境污染治理技术与设备,2003,4(2):22-26.
[8]	吴丰昌,金相灿,张润宇等.论有机氮磷在湖泊水环境中的作用和重要性.湖泊科学,2010,22(1):1-7.
[9]	El？i ？. Effects of thermal stratification and mixing on reservoir water quality. Limnology, 2008,9(2):135-142.
[10]	刘流.三峡水库支流库湾水温分层及其对水华的影响[学位论文].宜昌:三峡大学,2012.
[11]	Imberger J. Physical processes in lakes and oceans. Wiley Online Library, 1998.
[12]	Kumagai M, Nakano S, Jiao C et al. Effect of cyanobacterial blooms on thermal stratification. Limnology, 2000,1(3):191-195.
[13]	Read JS, Hamilton DP, Jones ID et al. Derivation of lake mixing and stratification indices from high-resolution lake buoy data. Environmental Modelling & Software, 2011,26(11):1325-1336.
[14]	Becker V, Huszar VLM, Naselli-Floresl et al. Phytoplankton equilibrium phases during thermal stratification in a deep subtropical reservoir. Freshwater Biology, 2008,53(5):952-963.
[15]	王雨春, 朱俊,马梅等.西南峡谷型水库的季节性分层与水质的突发性恶化.湖泊科学,2005,17(1):54-60.
[16]	段婷婷.水源水中藻类监测及水质变化原因分析[学位论文].西安:西安建筑科技大学,2009.
[17]	Lee YG, Kang JH, Ki SJ et al. Factors dominating stratification cycle and seasonal water quality variation in a Korean estuarine reservoir. Journal of Environmental Monitoring, 2010,12(5):1072-1081.
[18]	马越,郭庆林,黄廷林等.西安黑河金盆水库季节性热分层的水质响应特征.水利学报,2013,44(4):406-415.
[19]	Straile D, J hnk K, Rossknecht H. Complex effects of winter warming on the physicochemical characteristics of a deep lake. Limnology and Oceanography, 2003,48(4):1432-1438.
[20]	Fan CW, Kao SJ. Effects of climate events driven hydrodynamics on dissolved oxygen in a subtropical deep reservoir in Taiwan. Science of the Total Environment, 2008,393(2):326-332.
[21]	更多...
[22]	Humborg C, Ittekkot V, Cociasu A et al. Effect of Danube River dam on Black Sea biogeochemistry and ecosystem structure. Nature, 1997,386(6623):385-388.
[23]	夏品华,林陶,李存雄等.贵州高原红枫湖水库季节性分层的水环境质量响应.中国环境科学,2011,31(9):1477-1485.
[24]	Wang S, Qian X, Han BP et al. Effects of local climate and hydrological conditions on the thermal regime of a reservoir at Tropic of Cancer, in southern China. Water Research, 2012,46(8):2591-2604.
[25]	Tuan NV, Hamagami K, Mori K et al. Mixing by wind-induced flow and thermal convection in a small, shallow and stratified lake. Paddy and Water Environment, 2009,7(2):83-93.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133