1) co-pyrolysis
共热解法
1.
The research focused on the preparation of CEMNs by co-pyrolysis of aromatic heavy oil and ferrocene.
本论文主要以一种中海油石油重油为碳源、以二茂铁为金属源,采用共热解法制备碳包覆纳米金属颗粒。
2) coprecipitation-thermal decomposition
共沉淀-热分解法
1.
Preparation of prealloyed powder for diamond tools by coprecipitation-thermal decomposition method;
共沉淀-热分解法制备金刚石工具用预合金粉
3) Pyrolysis/Copyrolysis
热解/共热解
4) co-pyrolysis
共热解
1.
Influence of co-pyrolysis for the mixture of biomass and waste tires on pyrolytic liquid property;
生物质与废轮胎共热解对热解液体性质的影响
2.
Influence of co-pyrolysis and catalysis of biomass with waste tire on pyrolytic oil properties;
生物质与废轮胎共热解及催化对热解油的影响
3.
Emission characteristics of chlorine in the process of coal and WP co-pyrolysising and exploring on its mechanism;
混合废塑料与煤共热解过程中氯的释放特性和机理
5) copyrolysis
[kɔpi'rɔlisis]
共热解
1.
Pyrolysis and Copyrolysis of Coal and Oil Shale;
煤、油页岩热解与共热解研究
2.
Study on Copyrolysis Characteristics of Biomass and Polylactic Acid Plastic Blends
生物质与聚乳酸塑料共热解特性研究
3.
In this paper a review on recent research about copyrolysis of coal and biomass is made.
对近年来煤与生物质共热解的研究作了综述。
6) co-hydrolysis
共水解法
1.
A series of hydrophobically associating water-soluble polymers poly(acrylamide/sodium acrylate/N,N-diallyl-N-tetradecylamine)(P(AM/NaAA/DiAC_14)) were prepared by way of co-hydrolysis with alkali before radical micellar copolymerization.
采取前加碱二元胶束共聚-共水解法合成了三元疏水缔合水溶性聚合物聚(丙烯酰胺/丙烯酸钠/N,N-双烯丙基十四胺)〔P(AM/NaAA/D iAC14)〕,研究了其水溶液的黏度行为。
2.
A series of twin-tailed hydrophobically associating water-soluble terpolymers poly (acrylamide/sodium acrylate/di-n-butylacrylamide)[P(AM/NaAA/DiC_4 AM)]were synthesized first by micellar copolymerization and then by co-hydrolysis with alkali.
采用先加碱共聚-共水解法合成了孪尾疏水缔合性丙烯酰胺/丙烯酸钠/N,N-二正丁基丙烯酰胺共聚物[P(AM/NaAA/DiC_4AM)]。
补充资料:光学-热解法
分子式:
CAS号:
性质: 用热分解与光吸收组合测定含碳物质中碳的不同化学状态的一种状态分析方法。适用于固相含碳样品如烟尘、飘尘中三种碳(有机碳、元素碳和无机碳)的定量分析。其基本原理为利用有机碳(低沸点25~250℃,高沸点250~350℃)、元素碳(炭黑、石墨碳350~600℃)和无机碳(碳酸盐650℃左右)在不同温度范围热分解,并与氧气反应,生成二氧化碳,用红外气体分析仪分别测定其含量。
CAS号:
性质: 用热分解与光吸收组合测定含碳物质中碳的不同化学状态的一种状态分析方法。适用于固相含碳样品如烟尘、飘尘中三种碳(有机碳、元素碳和无机碳)的定量分析。其基本原理为利用有机碳(低沸点25~250℃,高沸点250~350℃)、元素碳(炭黑、石墨碳350~600℃)和无机碳(碳酸盐650℃左右)在不同温度范围热分解,并与氧气反应,生成二氧化碳,用红外气体分析仪分别测定其含量。
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