1) burning reaction
燃烧副反应
1.
The burning reactions in isophthalic acid production are the critical side reactions that increased the consumption of m-xylene and solvent.
而在生产间苯二甲酸的过程中存在间苯二甲酸和醋酸消耗量大的问题,针对此问题,文章对间二甲苯生成间苯二甲酸工艺进行研究,寻找燃烧反应的规律,在原有催化剂体系基础上进行改进,利用活性炭取代锰作为催化剂时,可以大幅降低燃烧副反应进行,为间苯二甲酸生产的节能降耗提供了新的思路。
2) combustion
[英][kəm'bʌstʃən] [美][kəm'bʌstʃən]
燃烧反应
1.
The Kinetic Study of PMMA Isothermal Combustion;
聚甲基丙烯酸甲酯等温燃烧反应的动力学研究
2.
The flame temperature of C_2H_2 combustion in NO was 3587 K by theoretical colculation, which was very near its actual temperature (3368 K).
1196n λ计算了乙炔在NO中燃烧反应的火焰温度,计算值为3587K,与实际温度3368K非常接近。
4) combustion reaction
燃烧反应
1.
Mechanism of H_2 combustion reaction in N_2O;
H_2在N_2O内燃烧反应机理探讨
2.
Flame temperature of gas combustion reaction;
煤气燃烧反应的火焰温度
3.
The results showed that the main products of combustion reaction were TiB2 and MoB.
采用燃烧反应工艺焊接了TiB2陶瓷与金属Mo,对中间反应层生成物进行了XRD物相分析,对焊接界面结合情况进行了电子探针分析。
5) combustion reactivity
燃烧反应性
1.
By employing the method of thermogravimetric analysis and powder X-ray diffraction measured respectively were the combustion reactivity and structural changes of the semicoke of two low-rank bituminous coals and one type of anthracite during the process of pyrolysis at 400~1400 ℃.
用热天平(TGA)和粉末X射线衍射方法(XRD)分别测量了两种低变质程度烟煤和一种无烟煤的半焦在400~1 400℃热解过程中燃烧反应性及其结构的变化,探讨了低变质煤的反应性变化的原因。
2.
The combustion reactivity of chars from pyrolysis of Shenmu coal maceral concentrates under different pyrolysis temperature, heating rate and pressure were systematically investigated by using TGA.
近年来 ,对显微组分热解半焦燃烧反应性的研究已有报道[1~ 4 ] 。
3.
Taking the blended coal chars of anthracite and bituminous coal as examples,the physical and chemical properties and combustion reactivity of blended coal chars were investigated by micro-analysis method.
以无烟煤和烟煤的混煤焦为例,采用微观分析方法研究混煤焦的理化特性和燃烧反应性。
6) combustion chain reaction
燃烧链反应
补充资料:副反应
分子式:
分子量:
CAS号:
性质:见主(要)反应。
分子量:
CAS号:
性质:见主(要)反应。
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