1) pyrolysis C_4
裂解C4
2) Cracking of C4 hydrocarbons
C4烃的裂解
3) C 4
C4
1.
The hybrid process of distillation side-connected with pervaporation for the separation of C 4 etherified products was simulated with the HYSIM modeling system.
利用HYSIM软件系统 ,采用平推流与全混流两种进料方式的渗透汽化工艺 ,对醚化后C4产物分离的蒸馏 -渗透汽化集成过程进行模拟 ,计算了回流比、侧线出料量、侧线进出口位置、进料及返回液中甲醇含量等操作条件对产物的影响。
2.
Objective To determine the degree of C 4 changes at precede or coincide with changes in systemic lupus erythematosus (SLE) activity by 5 global activity indices(PGA, M-SLEDAI, M-LAI, SLAM, and M-BILAG), and to evaluate the correlation between changes in C 4 levels and SLE activity in individual organ systems.
目的 确定用 5种方法 (PGA、M -SLEDAI、M -LAI、SLAM和M -BILAG)定义的狼疮活动之前或同时C4水平变化的程度 ,及其与特异性脏器活动的相关性。
4) pyrolysis
[英][pai'rɔlisis] [美][paɪ'rɑləsɪs]
裂解
1.
Evaluation of properties of steam pyrolysis of delayed coking gasoline in laboratory;
延迟焦化汽油蒸汽热裂解性能实验室评价
2.
Analysis of pyrolysis of poly (butylene terephthalate) fiber;
聚对苯二甲酸丁二酯纤维热裂解分析
3.
Thermoplymerization in C_5 fraction of ethylene pyrolysis;
乙烯裂解C_5馏分的热聚合过程
5) decomposition
[英][,di:kɔmpə'ziʃən] [美][,dikɑmpə'zɪʃən]
裂解
1.
Catalytic decomposition of methane for preparation of hydrogen;
甲烷催化裂解制氢技术研究进展
2.
Performance of catalyst for tert-amylmethyl ether decomposition to produce isoamylene;
甲基叔戊基醚裂解催化剂的催化性能
3.
Electron microscopic analysis of decomposition products of acetylene under different conditions;
不同条件下乙炔裂解产物的电镜分析
6) fracture splitting
裂解
1.
Fracture splitting connecting rod technology analysis;
连杆分开面裂解的力学分析
2.
Plastic zone at crack tip of connecting rod under static loading and its effect on fracture splitting quality;
静载下连杆裂解裂尖塑性区及其对裂解质量的影响
3.
Research on geometry parameters of stress-raising groove in fracture splitting processing of engine con-rod;
发动机连杆裂解加工初始裂纹槽几何参数研究
补充资料:2-酮-3-脱氧-6-磷酸葡糖酸裂解途径
分子式:
CAS号:
性质:又称2-酮-3-脱氧-6-磷酸葡糖酸(KDPG)裂解途径。最早由Entner和Doudoroff在嗜糖假单胞菌(Pseudomonassaccharophila)中发现,故名。是若干缺乏完整EMP途径的微生物所具有的EMP替代途径。其特点是:葡萄糖只经四步反应即可产丙酮酸,关键反应是KDPG裂解成丙酮酸和3-磷酸甘油醛。细菌的酒精发酵就是通过本途径进行的。
CAS号:
性质:又称2-酮-3-脱氧-6-磷酸葡糖酸(KDPG)裂解途径。最早由Entner和Doudoroff在嗜糖假单胞菌(Pseudomonassaccharophila)中发现,故名。是若干缺乏完整EMP途径的微生物所具有的EMP替代途径。其特点是:葡萄糖只经四步反应即可产丙酮酸,关键反应是KDPG裂解成丙酮酸和3-磷酸甘油醛。细菌的酒精发酵就是通过本途径进行的。
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