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地理科学进展 2010

岩溶流域水文模型研究进展

DOI: 10.11820/dlkxjz.2010.11.008, PP. 1311-1318

蒙海花,王腊春

Keywords: 水文模型,岩溶流域,展望

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Abstract:

岩溶地区含水介质结构的多重性和岩溶地貌形态的高度复杂性，使岩溶系统的水文效应和水资源的评价与预测一直都成为水文研究的重点和难点。在岩溶含水介质特点和岩溶水文形成过程的基础上,本文着重评述了黑箱模型、概念性模型、物理性模型和分布式水文模型在岩溶水文模拟中的应用。其中黑箱模型包括基于核函数的算法、回归模型、人工神经网络和小波分析；概念性模型包括蓄泄模型和流量过程线衰减函数；物理性模型主要包括达西定律、Darcy-Weisbach方程、有限元法和等效连续多孔介质；分布式水文模型主要是SWMM模型，并分别对各类模型的概念、方法、应用效果以及存在的优缺点等进行了分析。最后指出了研究中存在的一些不足，并就岩溶流域水文模拟的进一步研究提出了相应的建议，这对于解决岩溶区的水资源可持续利用问题有重要意义。

References

[1]	Dreiss S J. Linear kernels for karst aquifers. Water Resources Research, 1982, 18(4): 865-876.
[2]	Dreiss S J. Linear unit-response functions as indicators of recharge areas for large karst springs. Journal of Hydrology, 1983, 61(1-3): 31-44.
[3]	Dreiss S J. Regional scale transport in karst aquifer: 1. Component separation of spring flow hydrographs. Water Resources Research, 1989, 25(1):1 17-125.
[4]	曹以临, 张永祥. 利用频谱响应函数进行淄博流域地下水评价. 中国岩溶, 1991, 10(4): 253-260.
[5]	Labat D, Ababou R, Mangin A. Rainfall-runoff relations for karstic springs. Part I: convolution and spectral analyses. Journal of Hydrology, 2000, 238(3-4): 123-148.
[6]	Lambrakis N, Andreou A S, Polydoropoulos P, et al. Nonlinear analysis and forecasting of a brackish karstic spring.Water Resources Research, 2000, 36(4): 875-884.
[7]	Pinault J L, Plagnes V, Aquilina L, et al. Inverse modeling of the hydrological and the hydrochemical behavior of hydrosystems: Characterization of karst system functioning. Water Resources Research, 2001, 37 (8): 2191-2204.
[8]	Deni?-Juki? V, Juki? D. Nonlinear kernel functions for karst aquifers. Journal of Hydrology, 2006, 328(1-2): 360- 374.
[9]	Olsthoorn T N. Do a bit more with convolution. Ground Water, 2008, 46(1): 13-22.
[10]	何宇彬, 韩宝平, 徐超, 等. 中国喀斯特水研究. 上海: 同济大学出版社, 1996: 165-169.
[11]	Zaltsberg E A. Forecast of karst water levels. Heise: Hydrogeology of Karstic Terraines, 1984: 40-42.
[12]	Yobbi D K. Effects of tidal stage and ground water levels on the discharge and water quality of springs in coastal Citrus and Hernando Counties, Florida. USGS Water Resources Investigations Report, 1992: 4069.
[13]	Felton G K, Currens J C. Peak flow rate and recession curve characteristics of a karst spring in the Inner Bluegrass, Central Kentucky. Journal of Hydrology, 1994, 162 (1-2): 99-118.
[14]	王茂枚, 束龙仓, 季叶飞, 等. 济南岩溶泉水流量衰减原因分析及动态模拟. 中国岩溶, 2008, 27(1): 19-31.
[15]	Kurtulus B, Razack M. Evaluation of the ability of an artificial neural network model to simulate the input-output responses of a large karstic aquifer: The La Rochefoucauld aquifer (Charente, France). Hydrogeology Journal, 2007, 15(2): 241-254.
[16]	Hu C H, Hao Y H, Yeh J, et al. Simulation of spring flows from a karst aquifer with an artificial neural network. Hydrological Processes, 2008, 22(5): 596-604.
[17]	李根义, 朱学愚, 钱家忠, 等. 实数编码遗传算法优化的神经网络模型在岩溶水水位预报中的应用. 南京大学学报, 2001, 37(3): 323-327.
[18]	陈南祥, 黄强, 曹连海. 基于偏最小二乘回归与神经网络耦合的岩溶泉预报模型. 水利学报, 2004(9): 68-72.
[19]	陈宏峰, 朱明秋, 夏日元, 等. 湖南洛塔干河猪场表层岩溶泉BP 人工神经网络分析. 中国岩溶, 2005, 24(4): 300-304.
[20]	李贵明. 基于相空间重构与神经网络耦合的岩溶泉流量预测模型. 工程勘察, 2006(4): 30-32.
[21]	Labat D, Ababou R, Mangin A. Rainfall-runoff relations for karstic springs. Part II: continuous wavelet and discrete orthogonal multiresolution analyses. Journal of Hydrology, 2000, 238(3/4): 149-178.
[22]	Labat D, Ababou R, Mangin A. Introduction of wavelet analyses to rainfall/runoffs relationship for a karstic basin: The case of Licq-Atherey karstic system (France). GroundWater, 2001, 39(4): 605-615.
[23]	孔兰, 梁虹, 黄法苏, 等. 基于喀斯特流域径流量多时间尺度小波分析. 人民长江, 2008, 39(5): 17-26.
[24]	Padilla A, Pulido-Bosch A. Study of hydrographs of karst aquifers by means of correlation and cross-spectral analysis. Journal of Hydrology, 1995, 168(1-4): 73-89.
[25]	Eisenlohr L, Kiral L, Bouzelboudjen M, et al. Numerical simulation as a tool for checking the interpretation of karst spring hydrographs. Journal of Hydrology, 1997, 193(1-4): 306-315.
[26]	李阳兵, 邵景安, 王世杰, 等. 岩溶生态系统脆弱性研究. 地理科学进展, 2006, 25(5): 1-9.
[27]	雒征, 胡彩虹, 郝永红. 岩溶泉水的研究现状与进展. 水资源与水工程学报, 2005, 16(1): 56-59.
[28]	Bonacci O. Karst hydrology. New York: Springer, 1987: 184.
[29]	Deni?-Juki? V, Juki? D. Composite transfer functions for karst aquifers. Journal of Hydrology, 2003, 274(1-4): 80-94.
[30]	Singh V P. 水文系统: 降雨径流模拟. 赵卫民, 戴东, 译. 郑州: 黄河水利出版社, 1999:480.
[31]	Labat D, Ababou R, Mangin A. Linear and non-linear input/ output models for karstic springflow and flood prediction at different time-scales. Stochastic Environmental Research and Risk Assessment. 1999, 13(5): 337-364.
[32]	Panagopoulos G, Lambrakis N. The contribution of time series analysis to the study of the hydrodynamic characteristics of the karst systems: application on two typical karst aquifers of Greece (Tri fila Almyros Crete). Journal of Hydrology, 2006, 329: 376-398.
[33]	杨军耀, 赵涛. 岩溶水系统支持向量机泉流量预报模研究. 工程勘察, 2007, 12: 29-42.
[34]	郝永红, 王学萌. 娘子关泉灰色系统模型研究. 系统程学报, 2001, 16(1): 39-44.
[35]	袁道先, 戴爱德, 蔡五田, 等. 中国南方裸露型岩溶峰山区岩溶水系统及其数学模型的研究: 以桂林丫吉为例. 桂林: 广西师范大学出版社, 1996: 88-118.
[36]	Barrett M E, Charbeneau R J. A parsimonious model for simulating flow in a karst aquifer. Journal of Hydrology, 1997, 196(1-4): 47-65.
[37]	Halihan T, Wicks C M. Modelling of storm responses in conduit flow aquifers with reservoirs. Journal of Hydrology, 1998, 208(1-2): 82-91.
[38]	Fleury P, Plagnes V, Bakalowicz M. Modelling of the functioning of karst aquifers with a reservoir model: application to Fontaine de Vaucluse. Journal of Hydrology, 2007, 345(1-2): 38-49.
[39]	Padilla A, Pulido-Bosch A. Simple procedure to simulate karstic aquifers. Hydrological Processes, 2008, 22(12): 1876-1884.
[40]	Le Moine N, Andreassen V, Mathevet T. Confronting surface and groundwater balances on the La Rochefoucauld Touvre karstic system (Charente, France). Water Resources Research, 2008: 44.
[41]	Maillet E. Essai d' hydraulique souterraine et fluviale: Librairie scientifique. Paris: Hermann, 1995: 304.
[42]	严启坤. 一个岩溶地下河流域模型及其应用. 中国岩溶, 1988, 7(2): 111-120.
[43]	张健云, 庄一鸰. 岩溶地区流域水文模型的探讨及应用. 河海大学学报, 1988, 16(3): 68-79.
[44]	Wanakule N, Anaya R. A lumped parameter model for the Edwards Aquifer, Technical Report No. 163, Texas Water Resources Institute, Texas A and M University, College Station Texas, 1993: 83.
[45]	王腊春, 史运良. 非闭合流域岩溶水模型. 水科学进展, 1995, 6(4): 318-324.
[46]	缪韧, 林三益. 非均匀下垫面流域径流模拟与径流分析: 岩溶地区水资源研究之一. 四川水力发电, 1995, 2: 17-23.
[47]	Kiraly L. A three dimensional model for groundwater flow simulation. NAGRA report, 1985: 84-89.
[48]	Mohrlok J, Sauter M. Modelling groundwater flow in a karst terrace using discrete and double-continuum approaches: importance of spatial and temporal distribution of recharge//Proceeding 6th conference on limestone hydrology and fissured media, La Chaux-de-Fonds, Switzerland, 1997: 167-170.
[49]	Csepregi A. Computer simulation of the karst water table in the Transdanubian Mountain Range, Hungary//Gunay G, Johnson A I. Karst Waters and Environmental Impacts, Proceedings of Fifth International Symposium on Karst Waters and Environmental Impacts, Antalya, Turkey, 1997: 343-352.
[50]	Larocque M, Banton O, Ackerer P, et al. Determining karst transmissivities with inverse modeling and an equivalent porous media. Ground water, 1999, 37(6): 897-903.
[51]	Schomberg J D, Host G, Johnson L B, et al. Evaluating the influence of landform, surficial geology, and land use on streams using hydrologic simulation modeling. Aquatic Sciences, 2005, 67(4): 528-540.
[52]	任启伟. 基于改进SWAT模型的西南岩溶流域水量评价方法研究
[53]	[D] 北京: 中国地质大学, 2006: 45-59.
[54]	Liu Y B, Batelaan O, De Smedt F, et al. Test of distributed modeling approach to predict flood flows in the karst Suoimuoi catchment in Vietnam. Environmental Geology, 2005, 48(7): 931-940.
[55]	索立涛, 万军伟, 卢学伟. TOPMODEL模型在岩溶地区的改进与应用. 中国岩溶, 2007, 26(1): 67-70.
[56]	Campbell C W, Sullivan S M. Simulating time-varying cave flow and water levels using the Storm Water Management Model. Engineering Geology, 2002, 65(2-3): 133-139.
[57]	章程, 蒋勇军, Lian Y Q, 等. 利用SWMM模型模拟岩溶峰丛洼地系统降雨径流过程: 以桂林丫吉试验场为例. 水文地质工程地质, 2007, 34(3): 10-14.
[58]	吴月霞, 薛勇军, 袁道先, 等. 岩溶泉域降雨径流水文过程的模拟: 以重庆金佛山水房泉为例. 水文地质工程地质, 2007, 34(6): 41-47.
[59]	贾晓青, 杜欣, 赵旭峰, 等. 改进SCS产流模型在岩溶地区径流模拟中的应用. 人民长江, 2008, 39(11): 25-30.
[60]	Peterson E W, Wicks C M. Modeling groundwater through branch work conduit systems using the storm water management model (SWMM). EOS Transactions of the American Geophysical Union, 2000, 81(48): 529.
[61]	Peterson E W, Wicks C M. Assessing the importance of conduit geometry and physical parameters in karst systems using the storm water management model (SWMM). Journal of Hydrology, 2006, 329(1-2):294-305.
[62]	Zaghloul N A, Abu Kiefa M A. Neutral network solution of inverse parameters used in the sensitivity-calibration analyses of the SWMM model simulations. Advances in Engineering Software, 2001, 32(7): 587-595.
[63]	John C L. Stormwater management design in karst terrane adjusting hydrology models and using karstic features.

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