1.
COMPARISON OF EQUATIONS OF STATE IN CALCULATING THE VAPOR-LIQUID EQUILIBRIA OF GAS-HEAVY ALKANE SYSTEMS
费托合成体系气体-高碳烷烃的相平衡计算
2.
High Pressure Vapor-Liquid Equilibria of Two Binary Systems Containing Carbon Dioxide and Alkanes;
二氧化碳与饱和烷烃二元系统高压气液相平衡的研究
3.
high temperature hydrocarbon aromatization
(烷)烃的高温芳构化
4.
Paraffins have high diesel indices.
链烷烃的柴油指数最高。
5.
A hydrocarbon was known to be either an alkene or alkane.
某碳氢化合物已知可能是烯烃或是烷烃。
6.
Development of catalysts for producing olefins from light alkanes with oxidant CO_2
CO_2氛围中低碳烷烃制烯烃催化剂的研究进展
7.
After the decarboxylation process the alkane produced can be degraded or "cracked" =to lower carbon number alkanes.
脱羧基作用后,所形成的烷烃能被降解或“裂解”成低碳数烷烃。
8.
Naphthenic having the characteristics of naphthense, which are saturated hydrocarbons containing molecules with at least one closed ring of carbon atoms.
环烷烃具有环烷特性的、少包含一个碳原子团链的饱和烃。
9.
Naphthenic having the characteristics of naphthense,which are saturated hy_drocarbons containing molecules with at least one closed ring of carbon atoms.
环烷烃具有环烷特性的、至少包含一个碳原子闭链的饱和烃。
10.
Catalytic Cracking of n-Alkanes and Coke Deposite under Supercritical Condition;
超临界条件下正构烷烃催化裂解和积碳研究
11.
Prediction of liquid densities for low carbon alkanes and nitrogen binary mixture at low temperatures
低温低碳烷烃和氮双元液态混合物密度的推算
12.
Plant Side Stream Pilot Test of the Catalyst for Transalkylation of Benzene and C9 Aromatics
苯和碳九芳烃烷基转移催化剂的工业侧线试验
13.
Alkane distributions of seep-carbonates from the slopes of Gulf of Mexico
墨西哥湾陆坡区冷泉碳酸盐岩的烷烃分布特征
14.
Conversion of light alkanes to alkenes under the action of non-equilibrium plasma;
非平衡等离子体作用下低碳烷烃无氧烯烃化反应研究
15.
Study on the Morphology and Olefin/Paraffin Permeation Properties of Metal Doped Polymeric Membranes;
含金属高分子膜形态及烯烃、烷烃渗透行为研究
16.
Preparation of Alkyl Functionalized Multi-walled Carbon Nanotubes Using the Esterification of Bromoalkane and Carboxyl Group
通过溴代烷烃和羧基的酯化反应制备烷基改性的多壁碳纳米管
17.
hydrocarbon gases, usually propane or butane, kept under pressure.
烃类气体,通常为储存于高压下的丙烷或丁烷。
18.
Various patterns of hydrocarbon migration would result in different fractionation effects of methane carbon isotopes.
不同的烃类运移方式产生了不同的甲烷碳同位素分馏效应。