2) Nihe River
泥河
1.
Nihe River is the main surface river in Panji mining area of Huainan city.
泥河是潘集矿区主要河流,受塌陷一定的影响,部分泥河段已经与塌陷水域连在了一起,它对潘集矿区水环境起着重要的作用。
3) riverbed sludge
河湖底泥
1.
The experiment study the pyrolysis behaviors of coal slime and riverbed sludge using the method of liner warming.
实验采用线型升温的方法对煤泥水与河湖底泥共热解制氢特性进行了研究。
4) Yellow River silt
黄河泥沙
1.
Based on the research of body decoration on the ceramic wine bottle made with Yellow River silt,a series of semi-frit glaze was made.
针对黄河泥沙质陶瓷酒瓶坯体的装饰展开研究,采用低温一次快烧工艺,研制了一系列熔块及半熔块釉。
2.
Ceramic slurry mainly containing the Yellow River silt,a natural waste,was successful prepared for the slip casting use,which were more than 60%(in mass,the same below) of silt.
以大自然废弃物黄河泥沙为主要原料成功地调制了适合于注浆成型的陶瓷泥浆。
3.
The raw material Yellow River silt is one sort of natural waste, which belongs to the silicate mineral material and meanwhile a utilizable precious resources, Manufacturing wine bottle with Yellow River silt can not only benefits the environment, but also economize cost.
黄河淤泥沙是一种大自然废弃物,属于硅酸盐类矿物原料,同时也是一种可利用的宝贵资源,以黄河泥沙为主要原料制造陶瓷酒瓶节约成本、利废环保。
5) River sediment
河道底泥
1.
Situations of river sediment disposal of Shanghai and Pengyuepu River are introduced.
介绍了上海市河道底泥处置的现状,并对彭越浦河道底泥的化学成分、粒径分布进行了测定。
2.
Main components and features of river sediment are introduced Secondary pollution of river sediments to the water quality of the river is clarified Studies on importance and approaches to reutilization of river sediment are elucidated and carried out, which lead to the future and problem of the reutilization of river sedimen
主要介绍了河道底泥的主要成分和特征 ,阐明了河道底泥对上覆水体水质的二次污染作用 ,并对河道底泥资源化的意义和途径进行了阐述和研究 ,指出底泥资源化的方向和存在的问
3.
The principle, method and results of measuring specific surface area of ceramisite made of river sediment are discussed.
讨论了以河道底泥和生活污泥为原料烧制的陶粒比表面的测定原理、方法和结果 ,并对生活污泥添加量、粘结剂添加量和烧结温度对陶粒比表面的影响作了进一步分析。
6) Yellow-River sediments
黄河泥沙
1.
By adding high molecular weight flocculants intohigh turbid concentration suspensions with Yellow-River sediments,and by using settling technique and image analysis technology.
在黄河泥沙高质量浓度悬浊液中投加阳离子高分子聚合物,采用沉降技术与图像分析技术,探讨了聚合物的架桥絮凝机理以及不同质量浓度聚合物下架桥絮体粒径发展变化趋势,利用分形特性表征参数“分维”定量分析了不同质量浓度对絮体分形结构的影响,得出:①阳离子聚合物对泥沙颗粒的絮凝作用以架桥絮凝机理为主,电性中和机理为辅;②不同高分子质量浓度下泥沙架桥絮体粒径分布均呈广义的正态分布,不同絮凝阶段絮体存在3个粒径分布区域;③高分子质量浓度存在一个最佳值。
补充资料:河泥
分子式:
CAS号:
性质: 江、河、湖泊由于流水速度不同,使夹带的泥沙规律性地分级沉降的产物。其成分取决于流域内地表流失土和河岸崩塌物的成分。最细的一部分颗粒,不断淤积成泥。河泥一般储量丰富,化学成分稳定,颗粒级比较均匀,生产成本低,是生产水泥优良的天然黏土质原料。
CAS号:
性质: 江、河、湖泊由于流水速度不同,使夹带的泥沙规律性地分级沉降的产物。其成分取决于流域内地表流失土和河岸崩塌物的成分。最细的一部分颗粒,不断淤积成泥。河泥一般储量丰富,化学成分稳定,颗粒级比较均匀,生产成本低,是生产水泥优良的天然黏土质原料。
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参考词条