1) ammonium acid phosphate
酸性磷酸铵
2) acidic ammonium phosphate slurry
酸性磷铵料浆
1.
Prediction model of measuring the fluorine content of acidic ammonium phosphate slurry in the process of concentration;
酸性磷铵料浆浓缩过程中氟含量的预测模型
2.
Determination of the boiling point of acidic ammonium phosphate slurry;
酸性磷铵料浆沸点的测定
3.
An acidic ammonium phosphate slurry was obtained by ammonium neutralizing partially dilute pure phosphoric acid(P\-2O\-5 23.
68%P2O5)与气氨中和并进行浓缩得到一系列不同中和度、不同含水率的酸性磷铵料浆。
3) ammonium citrate solubilities
柠檬酸铵溶磷性
4) magnesium ammonium phosphate
磷酸铵镁
1.
Treatment of phosphate wastewater by magnesium ammonium phosphate precipitation process;
磷酸铵镁沉淀法处理磷酸盐工业废水
2.
Study on the treatment of phosphate wastewater and landfill leachate by magnesium ammonium phosphate process;
磷酸铵镁法综合处理磷酸盐工业废水和垃圾渗滤液研究
3.
A reaction condition optimization for phosphorus removal from wastewater by magnesium ammonium phosphate sedimentation;
磷酸铵镁沉淀法回收污水中磷的反应条件优化
5) ammonium polyphosphate
聚磷酸铵
1.
Study on the role of ammonia in preparation of crystal formⅡammonium polyphosphate;
结晶Ⅱ型聚磷酸铵制备过程中氨的作用研究
2.
Limitation of test method of average degree of polymerization of ammonium polyphosphate by end grouptitration;
端基滴定法测试聚磷酸铵平均聚合度的局限性
3.
Preparation of siloxane-enwrapped ammonium polyphosphate and its application in coating agents;
硅氧烷包覆聚磷酸铵协同阻燃剂的制备及在涂层剂中的应用
6) magnesium ammonium phosphate(MAP)
磷酸铵镁
1.
The technology of magnesium ammonium phosphate(MAP) is one of effective removal of high strength ammonia nitrogen and phosphate in wastewater.
磷酸铵镁(MAP)技术是一种有效去除废水中高浓度氨氮和高浓度磷酸盐的技术。
2.
The precipitation process via Magnesium Ammonium Phosphate(MAP) could remove and recycle the high strength phosphorus existing in sludge liquor and so decrease the loading rate of phosphorus when the sludge liquor is recycled to the front process.
城市污水厂厌氧消化污泥脱水液中含有高浓度的氨氮和磷酸盐,采用磷酸铵镁法可实现磷的回收,并减轻由于脱水液回流而导致的污水处理主工艺的氮、磷负荷提高。
3.
By preliminary economic analysis,the method of aeration and crystallization formed magnesium ammonium phosphate(MAP)seems more economical and applicable.
且经过初步的经济分析认为,磷酸铵镁吹脱结晶的方法有较高的经济性。
补充资料:油酸铵酸性皂
分子式:
CAS号:
性质:1mol油酸铵皂与1mol油酸形成的复盐。白色粉末。加热到78℃即分解。溶于水或乙醇。由油酸与不足量的氢氧化铵反应生成。可用作乳化剂。
CAS号:
性质:1mol油酸铵皂与1mol油酸形成的复盐。白色粉末。加热到78℃即分解。溶于水或乙醇。由油酸与不足量的氢氧化铵反应生成。可用作乳化剂。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条