1) NH 3TPD
线性丁烯骨架异构
2) skeletal isomerization of olefin
烯烃骨架异构化
1.
The FT-IR and NH 3-TPD investigations showed that the strong acid sites of H-FER zeolite, which are beneficial to the skeletal isomerization of olefin, were mainly the Brnsted acid sites.
红外光谱及NH3 TPD等实验结果表明 ,两者的强酸位主要是对烯烃骨架异构化反应有贡献的Br nsted酸位 。
3) skeletal isomerization
骨架异构
1.
The results showed that the oligomerization,cracking,skeletal isomerization and hydrogen transfer reaction of 1-heptene occurred on acid catalysts.
结果表明,庚烯-1在酸性催化剂上会发生齐聚、裂化、骨架异构和氢转移等反应;在较高转化率下,甚至会发生四聚反应。
2.
The principle of skeletal isomerization reaction of C_5 olefin, advances in research of catalyst, and the present situation of isomerization process were discussed and reviewed.
对C_5烯烃骨架异构化反应原理、催化剂的研究进展,以及异构化的工艺现状作了探讨和综述。
5) skeletal isomerization
骨架异构化
1.
The latest advances in the skeletal isomerization of n-amythene to i-amythene, including the reaction mechanism, the choice of catalysts, etc, were reviewed.
综述了正戊烯骨架异构化为异戊烯工艺的反应原理,催化剂的选择,生产条件及工艺现状作。
2.
The CoAPO-11 molecular sieve was prepared by the hydrothermal method and used to catalyze the skeletal isomerization of(1-hexene).
用水热法合成了CoAPO-11分子筛,并考察了温度和空速对分子筛上1-己烯骨架异构化反应的影响。
3.
MCM-49 molecular sieve with different Si/Al ratios was synthesized hydrothermally under static condition and dynamic condition (autoclave rotated at 60 r/min), and its catalytic performance for skeletal isomerization of 1-butene was studied.
采用动态和静态水热合成法合成了不同Si/Al比的MCM 4 9分子筛 ,并考察了合成分子筛对 1 丁烯骨架异构化反应的催化性能 。
6) activity of isomerization for butene
1-丁烯异构化活性
补充资料:顺-反式异构体(cistrans isomer),1,2,4异构体
分子式:
CAS号:
性质:又称顺-反式异构体(cistrans isomer),1,2,4异构体或1,2,6异构体(1,2,4 isomer;1,2,6 isomer)。八面体配位化合物中,六个配体分别为3个A(如图中Cl:A1,A2,A3)和3个B(如图中Py:B1,B2,B3)(图暂缺)。当三个相同的配体中的两个(如A1与A3或B1与B3)互为反式,第三个(如A2或B2)与这两个A1与A3或B1与B3)均为顺式,这样的排布的异构体即为经式异构体。
CAS号:
性质:又称顺-反式异构体(cistrans isomer),1,2,4异构体或1,2,6异构体(1,2,4 isomer;1,2,6 isomer)。八面体配位化合物中,六个配体分别为3个A(如图中Cl:A1,A2,A3)和3个B(如图中Py:B1,B2,B3)(图暂缺)。当三个相同的配体中的两个(如A1与A3或B1与B3)互为反式,第三个(如A2或B2)与这两个A1与A3或B1与B3)均为顺式,这样的排布的异构体即为经式异构体。
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