河流系统

南方地区河流系统生态需水量系统组成分析

Study on Ecological Water Requirement of River System in South China

东辽河流域河流系统生态需水研究

Ecological Water Demand by River System in East Liaohe River Basin

河流系统健康状况评价体系及评价方法

Index system and method for assessing the health status of river

海滦河流域河流系统生态环境需水量计算

Environmental and Ecological Water Consumption of River Systems in Haihe-Luanhe Basins

利用实测的河流系统的负荷数据，对模型系统进行验证。

Analysis and Simulation of burden on a cell in TD-SCDMA system ;

冲积河流系统特性与河流反应的研究

Study on Properties and River Reaction of Alluvial River System

河流系统的人类影响探讨

The Exploratory Investigation of the Human Influence on River System

河流系统水质时空格局演化研究

Research on River Water Quality Evolution Based on the Dissipative Structure Theory

河流系统水质管理模糊优化模型

Study on fuzzy optimization models for water quality management of river system

河流系统能量分配耗散关系的分析

Analysis on energy distribution dissipation relation on river system

水沙是河流系统最基本的物理要素，也是河流系统的动力因子。

Flow and sediment are the basic environmental and active factors of river system .

河流系统演化是一个堆积与切割相互作用的过程。

Development of fluvial system is a process of reaction of aggradation and incision .

防止河流系统泥沙淤积的河道最小径流量；

The minimum runoff against river bed sedimentation ;

基于水盐平衡的南通地区河流系统生态需水量研究

Study on Ecological Water Requirment of River System in Nantong Area Based on Water-salt Balance

在这一过程中黄河得到较多的水量，贯穿成现代的河流系统。

Consequently , the Yellow River was replenished with water to become the modern river system .

自然河流系统和人工水利渠道中，普遍存在水流交汇现象。

Confluences of main stream and tributary stream are common in natural river systems and artificial water channels .

分析了南方地区河流系统生态需水量的组成及相应的计算途径。

The composing and the corresponding calculation methods are carried out for ecological water requirement in the southern region .

耦合海湾&河流系统中复值波幅的求解是另一个从实际问题中得到的流体力学问题。

Calculating the complex amplitude in a coupled bay-river system is another fluid dynamics problem coming from engineering application .

河流系统是一个耗散结构，因此评价河流健康状况可以从系统的观点出发进行探讨研究。

Since river system is of dissipative structure , evaluation of river health can be studied with systematic views .

取一小流域为典型，从系统角度分析了冲积河流系统的基本结构特征及水沙、河流演变特性。

The basic structure and characteristics of river system is expounded by overall analysing a tributary system of Jinghe River .

河流系统内在功能的相辅相成性；河流生态环境需水量的动态性；

The relationships among the river system functions and the dynamic character of water demand on ecological environment should be considered ;

在印度，作为该国河流系统的源头，喜玛拉雅冰川的加速融化正在警告决策层。

In India , the melting of the Himalayan glaciers that feed the country 's great river systems is alarming policymakers .

在这一概念的基础上，构建计算河流系统生态环境需水量的理论基础。

On the basis of this concept , the author structures the theoretical foundation to calculate river system eco-environmental water demand .

由于河流系统的复杂性、动态性、开放性、非线性，给河流健康状况的预估带来诸多困难。

Because of the complexity , dynamic , openness , nonlinearity of river system , it brings many difficulties to the estimation .

本文基于河流系统概念，从河流健康研究的理论构架和诊断体系两方面对河流健康问题进行了研究。

The theoretical framework and diagnosis system of river health have been studied in the paper based on the concept of river system .

密西西比密苏里河，是世界第四最长的河流系统，运行主要是北南通过心脏的国家。

The Mississippi – Missouri River , the world 's fourth longest river system , runs mainly north – south through the heart of the country .

了解关于拆坝带来的潜在影响的一条途径是回顾在本河流系统上修建大坝所造成的后果。

A way of understanding potential impacts induced by the removal of dams is to recall the results of the construction of the dams in the river system .

在本文的结束语部分，就河流系统生态环境需水量理论和研究方法的进一步完善进行了展望：河流生态环境需水量的研究需要多领域专家的参与和协作；

In summary , the further development and improvement on water demand for ecological environment of river basin is prospected : it needs participation and cooperation by multi-domains experts ;

阐述了目前在建设项目水资源论证中，应该合理地考虑河流系统生态需水的必要性和重要性。

The necessity and the importance of the ecological water demand of rivers system should be thought reasonably in the argument of water resources on the construction projects nowadays .

选择乌江流域沉积岩-土壤-植被-河流系统作为研究对象，采集了多个小流域盆地岩石、土壤、植物及溪水样品。

We took sedimentary rock-soil-plant-river systems in Wujiang Catchments as our study objects , and collected samples of rocks , soils , plants and stream water at several small watersheds .