氨水

本文以采用氨水溶液的变质量能量转换及储存技术的闭式蓄能空调／供热系统为研究对象，运用（火用）平衡方法对系统的热力循环过程进行分析和研究。

As research case , the thermal cycle process of the advanced energy storage system for air-conditioning and heating using aqueous ammonia as working fluid was analyzed and researched by the exergy-balance analysis method .

本文提出一种处理含CO2、酚、吡啶、苯胺等杂质的污氨水的工艺流程，采用气相吸附净化，酸吸收的方法，实现了污氨水中氨的回收利用。

A process flow was put forward in this article to deal with waste aqueous ammonia containing impurities such as CO_2 , phenol , pyridine and phenylamine , by means of gas phase adsorption and acid absorption in order to recover ammonia in the waste solution .

可是，为什么是水，而不是双氧水或是氨水呢？

But why water and not , say , hydrogen peroxide or even ammonia ?

不同温度下炉内喷射氨水脱除NOx的模拟与试验研究

Modeling and experimental study on no_x reduction in furnace with ammonia injection

用氨水作为吸收剂脱除燃煤烟气中CO2的实验研究

Experimental Study on Absorption of CO_2 in Flue Gas by Hydrous Ammonia

氨水土壤混合物脱除CO2温室气体的实验研究

Study on removal of CO_2 greenhouse gas by mixture of ammonia and soil

煤基发电系统燃烧前后氨水吸收CO2的对比

Comparison of CO_2 Capture by Ammonia Water Before and After Combustion in a Coal-fired Power Generation System

增大稀氨水的浓度，减小进口气体CO2浓度也有利于提高脱除率。

The CO2 removal efficiency will improve with decreasing of the CO2 concentration and increasing of ammonia solution concentration .

采用硫酸钛与氨水反应制备掺氮TiO2。

Nitrogen-doped TiO2 was prepared by Ti ( SO4 ) 2 solution reacting with NH3 aqueous solution .

氨水相无机碳主要由含水率、Fe3+/Fe2+、pH、Eh控制；

H2O form was controlled mainly by water content , Fe3 + / Fe2 + , pH and Eh ;

由此可以得出结论，超重场能够有效强化氨水常压下化学吸收燃煤锅炉烟道气中低浓度CO2，并生成碳酸氢铵晶体。

In conclusion , ammonia could absorb low concentration carbon dioxide from flue gas in plant under super-gravity field and obtain carbon bicarbonate .

改变氨水和水的用量及添加N，N-二甲基甲酰胺（DMF），研究其对薄膜结构的影响。

Researched membrane structures by changing the amount of ammonia and water and N , N-dimethylformamide ( DMF ) .

以四氯化钛和氨水为原料，在低温下制备锐钛矿型纳米TiO2溶胶。

Anatase nano-TiO2 sol was prepared at low temperature with titanium tetrachloride and ammonia water as raw material .

氨水对膜材料有较强的侵蚀性，PP膜比PVDF具有更好的抗侵蚀性。

Ammonia has the strong erosion on membrane material , PP has better corrosion resistance than PVDF .

氨水共沉淀法制备纳米活性NiO的研究

Study of preparation for active nano-NiO by ammonia coprecipitation

氨水浓度对CdS薄膜的光学性质也有很大的影响，随着氨水浓度的提高所得到的CdS薄膜的禁带宽度增大。

The ammonia concentration has greatly influenced the optical properties and the band gap of CdS thin films .

实验结果表明：采用反向滴定时，氨水起始pH值较大，能满足金属离子同时沉淀，达到离子级均匀混合沉淀。

The experimental results show that the metal ions can be precipitated together because of the initiate pH value is large when using the reverse titration type .

利用氨水和氯化锌溶液进行水热反应制得了ZnO纳米管阵列。测试了ZnO纳米管阵列的场发射特性。

ZnO nanotube arrays are prepared by hydrothermal reaction in ammonia and zinc chloride solutions , and the field emission properties are tested .

考察了三油酸甘油酯（TL）对长期饮用0015%氨水所诱发的大鼠慢性萎缩性胃炎的预防及治疗作用。

The preventive and therapeutic effects of TL on chronic atrophic gastritis induced by ammonia were investigated .

结果表明，要形成稳定铝硅溶胶pH值必须控制在3以下，采用氨水和乙酰丙酮可调节胶凝时间。

The results of experiment show that stable silica-alumina gel was formed by controlling the value of pH3 . Gelatinization time could be adjusted by adding ammonia or acetylacetone .

沉淀法产生的沉淀渣用氨水进行处理，回收其中的稀有金属Mo。

The rare metal Mo from the deposit slags produced in precipitation can be recovered by way of the disposal through ammonia water .

本文以偏钛酸、双氧水和氨水为反应原料，采用沉淀胶溶凝胶法制备了锐钛矿型纳米TiO2粉末。

Nanocrystalline anatase TiO2 powder was prepared by the method of precipitation-solution-gelation , using metatitanic acid , hydrogen peroxide and ammomia as reactants .

采用质量分数1-5%的氨水，考察了氨水质量分数对CO2对体积总传质系数的影响。

To investigate the effect of mass fraction of ammonia on overall mass transfer coefficient , experiments were carried out with ammonia solution varied from1to5wt % .

结果表明，助剂La、氨水的加入有效地避免了Co颗粒的团聚成块，形成的Co颗粒粒径较为统一，提高了其在碳管表面的分散度。

The results showed that , La and ammonia could effectively avoid the aggregation of Co particles and increase the dispersion of Co on the surface of CNTs .

以硝酸锌为原料，氨水、尿素为沉淀剂，同时加入表面活性剂，采用直接沉淀法和均匀沉淀法制备了纳米ZnO粉体。

Using zinc nitrate as the starting material and ammonia and urea as precipitating agent , we prepared nano-ZnO powder by direct precipitation method and homogeneous precipitation method .

为制备出适用于电子墨水的白色电泳颗粒，采用控制正硅酸乙酯在氨水-乙醇溶液中的水解来合成SiO2颗粒。

In order to prepare white electrophoretic particles , SiO_2 particles were prepared by hydrolysis of ethyl orthosilicate in ammonia / alcohol solution .

主要研究了TEOS及催化剂氨水的量对于SiO2胶体球粒径大小和粒径偏差的影响。

Effects of concentrations of ammonia and TEOS on the SiO2 particle size and size deviation were mainly investigated .

氨水溶液捕集CO2工艺由于吸收效率高、再生能耗低等优点已成为CO2减排技术领域的研究热点。

The absorption of CO2 by ammonia solution with the advantages of high efficiency and low regeneration energy has recently become a hotspot in the area of CO2 reduction .

采用硫酸钛为钛源，氨水作为沉淀剂的同时作为氮源，制备了钐、氮共掺杂的纳米TiO2光催化剂。

TiO2 co-doped with samarium and nitrogen was synthesized by co-precipitation method with titanium sulfate as titanium precursor and ammonium hydroxide as precipitating agent and nitrogen precursor .

方法：氨水介质中，利用Cu2+催化H2O2氧化达旦黄的褪色反应，建立测定发中Cu的实验条件和体系。

Methods : Determine the Catalytic effect of Cu (ⅱ) on the Oxidation of Titan yellow by H 2o 2 in a NH 3 · H 2 O medium .