污水量

利用人工湿地减少排入水体的污水量煤矿井下水资源合理利用与减排实践

Reducing Wastewater Flow of Water Body by Constructed Wetlands Practice of Reducing Pollution Discharge and Utilizing Water Resource in Underground Mine

本实验在前期实验室研究的基础上，建立了处理污水量为400m3/d的CAS系统的污泥加碱超声波减量化中试工艺。

Based on previous laboratory studies , we established a sewage treatment capacity of 400 m3 / d of CAS system with the alkali ultrasonic technology .

统计数据表明，我国年生产污水量约200亿m3，但其处理量尚不足20%。

The statistical data show that the annual amount of waste water produced in China is about 200 billion cubic meters , but the treated amount is less than 20 percent .

天然橡胶加工废水中有机成分多、浓度高、污水量大、COD和BOD含量高等等，故其处理难且成本高。

Nature rubber wastewater contain many organic ingredients , high concentration , big wastewater quantity and high COD and BOD and so on , so nature rubber wastewater is difficult to be treated .

探讨了将多元回归分析模型和灰色系统GM（1,1）耦合应用于城市生活污水量预测的方法，并应用该方法对某市2000年～2020年生活污水量进行了预测。

The coupling technique of pluralistic regression and Grey System ( GM ( 1,1 )) is discussed and applied to civil life wastewater quantity , the waste water quantity of 2000 and 2020 in the city has been forecasted by this model .

通过比较分析，发现BP神经网络的非线性映射能力能够更好地反映城市污水量与多个自变量间的复杂关系，具有较高的模拟精度且应用简便。

By means of comparative analysis , it is observed that BP neural network has the nonlinear mapped ability to reflect well the complex relationship between urban wastewater discharge and several independent variables , and it has the advantages of high analog accuracy and convenience for application .

回归-灰色系统组合模型预测城市生活污水量

Domestic Waste Water Quantity Forecasting by regression-Grey System Coupling Model

深圳市污水量预测方法探讨

On the Forecast Method of Sewage Discharge in Shen-zhen

在我国，洗浴废水达到城市生活污水量的30%。

Bathing wastewater flow contributed 30 % of domestic sewage stream in China .

污水量大、集中、连续排放。

Large sewage concentrating and continuing discharge .

城市污水量短时预测的混沌神经网络模型

Chaos neural network ( NN ) model for short-term predicting on the influent time series of WWTP

随着生活污水量的增加和水处理要求的不断提高，城市剩余污泥大量产生。

Rapid increase in quality and quantity of municipal wastewater treatment recently resulted in a large amount of excess sludge .

休息日和工作日相比，污水量及污染物浓度随时间的变化均较小。

Playday and workaday photograph are compared , the change that sewage quantity and contaminant chroma follow time all lesser .

针对高速公路污水量和水质的特点，设计采用地埋式一体化污水处理系统。

For the characteristics of expressway sewage quantity and water quality , the buried integrated wastewater treatment system is applied .

随着我国工业生产的发展，排放的污水量和种类越来越多。

With the improvement of industrial technology , discharge of waste water is growing and the species of waster water is increasing .

药品用量按该井次待处理污水量由室内实验和现场小型实验所得结果确定。

The principles , technology and field results of treating drilling site waste water in disposal pools of15 wells being drilled are described .

在分析海拉尔区现状城市污水量、污水处理量的基础上，预测了该区2007年水平年城市污水量、污水处理量和再生水量。

Based on analysis on present wastewater quantity and treated wastewater quantity in Haila'er district , wastewater quantity hand reclaimed wastewater quantity in2007 were forecasted .

随着城市面积的不断扩大，城市污水量日益增加，高峰时水量远远超过了氧化塘所能承受的负荷。

With the continuous expansion of urban areas , increasing the amount of , the peak of urban sewage far beyond the oxidation pond can bear the load .

染整加工后排放的污水量少，且容易净化处理，染整加工产品是生态（绿色）纺织品。

It produces less amount of sewage , and easy to purify the processing , dyeing and finishing products are ecological ( green ) textiles after dyeing and finishing .

随着人口的急剧增加、社会经济的迅速发展，用水量在不断的增加，排放的废水、污水量也在不断的增加，由此引发了一系列的问题。

With the dramatic increase of population , the rapid socio-economic development , the continuous increase of water consumption and wastewater discharge , it has caused a series of questions .

印染工业需求的淡水量非常大，我国工业的排放污水量主要来自印染工业。

A great deal of fresh water was demanded for printing and dyeing industry , and a great lot of industrial effluent was discharged from the dyeing industry in China .

长江入江污水量的时空分布与沿江各省市产业发展水平及年际变化有密切关系；

The spatial and time distribution of sewage which discharged into the Yangtze River is closely related to industrial development level and their changes yearly of the provinces along the river .

对项目背景资料和基础数据行了收集与分析，计算污水量、预测进水水质并确定了出水水质及建设规模。

Collect and analysis the project background and basic data information , calculate waste water quantity , forecast inlet water quality to calculate produced water quality and building scale . 2 .

通过线性函数逼近法将简化的已知条件模拟为线性型，并对每年需要处理的污水量进行10年后的预测。

Simulate the predigest known condition as linear type by linear function approximation method and forecast the quantity of sewerage to be dealed with each year in the next ten years .

在单位污水量条件下，提出了一次能源用能系数与节能系数概念，给出了计算式，做了定量对比计算。

Under the condition of unit volume of sewage , the concept of energy consumption coefficient and energy-saving coefficient was proposed , and the formula for making quantitative comparison was given .

本文根据旅游类型及污水量特征的不同，将北京市旅游型小村镇的旅游污水分为3种类型：旅游景区型、农家乐型和会议酒店型。

According to the different tourism types , the tourism sewage of villages in suburbs of Beijing was divided into three categories : tourism attractions , farmhouse entertainment , and conference hotel .

位于西北地区的新疆石河子市，在经济快速发展的同时，日益增多的污水量未经处理，直接排入戈壁，对土壤及地下水造成了污染。

The Shi he zi City Xinjiang in the northwestern region , the economic develop rapidly , while increasing the volume of untreated sewage directly into the Gobi , the soil and groundwater polluted .

目前，玛纳斯河存在的问题是城市污水量逐年增加，使水质不断恶化、严重富营养化，失去了水体原有的养殖功能。

Currently the Manas River problem is increasing year by year the amount of urban sewage , so that the water quality deterioration , severe eutrophication , loss of the original culture water features .

随着现代工业的发展及人口城市化的加速，城镇污水量将愈来愈大，水环境污染也日益加重，已引起政府和人民的高度关注。

With the development of modern industry and acceleration of urban population , there will be more and more wastewater and increasing water pollution , which have drawn wide attention of the government and people .

政府可将根据管网收集污水量计算的污水处理率作为考核指标，提高污水处理设施的效益，保证城镇污水处理厂投入运行后的实际处理负荷能力；

The government may take the rate of sew-age treatment calculated according to the piping network collection as the evaluation index , improve the efficiency of the sewage treatment facilities and ensure the actual treatment capacity after the urban sewage treatment works is put into operation .