1.
EXTRACTION TREATMENT OF FCC WASTEWATER BY FCC RAW MATERIAL OIL-DECOMPRESSED WAX OIL TO REMOVE PHENOL
催化原料油—减压蜡油萃取处理催化裂化废水
2.
The effects of the compostion s of different catalytic stocks on catalytic cracking reaction was discussed.
讨论了不同催化原料油组成情况及其对催化裂化反应的影响。
3.
Uses: Agriculture chemical, fertilizer, fodder and pigment, catalyst, purifying pharmaceutical, disinfectant, magnetisable material raw materials, etc.
用途:农药、料、料及颜料,催化剂、化剂、性材料原料等。
4.
APPLICATION OF HYDROPROCESSING TECHNOLOGY FOR FCC FEEDSTOCKS
催化裂化原料加氢预处理技术的应用
5.
CATALYTIC CRACKING OF DEASPHALTED OIL FROM DAQING VACUUM RESIDUE/FCC SLURRY MIXED FEED
大庆减压渣油/催化裂化油浆混合原料脱沥青油的催化裂化
6.
RATIONAL UTILIZATION OF COKER GAS OILS AS FCC FEEDSTOCKS
合理利用焦化蜡油为催化裂化提供原料
7.
Research on the Cracking Properties of Nanyang High Nitrogen Catalytic Cracking Raw Feed;
南阳高氮催化裂化原料的裂化性能研究
8.
Synthesis of In-situ Crystalline Catalytic Material and Its Applied Research on Catalytic Process of Hydrocracking;
原位晶化材料合成及加氢裂化催化应用研究
9.
Preparation of TiO_2/SiO_2/AC photocatalyst by chemical activation of composite of rice husk-TiO_2 precursor
以稻壳-TiO_2为原料化学活化制备TiO_2/SiO_2/AC光催化剂
10.
The citral is used as raw material and the lithium hydroxide/cocatalyst complex as catalyst produce Bata-ionone.
以氢氧化锂/助催化剂为催化剂体系,柠檬醛为原料合成β-紫罗兰酮。
11.
Synthesis of NaY Zeolite Using Fluid Catalytic Cracking Waste Catalyst
以催化裂化废催化剂为原料合成NaY分子筛的研究
12.
STUDY ON COMBUSTION HEAT UNDER CONSTANT PRESSURE OF FCC FEED STOCKS
催化裂化原料油恒压燃烧热的实验研究
13.
THE PRETREATMENT PHENOL REMOVING OF HIGH CONCENTRATION AROMATIC HYDROCARBON RAW MATERIAL FCC WASTEWATER
高芳烃原料催化裂化废水脱酚预处理研究
14.
Five catalysts were prepared from nickel ores and optimal catalyst was screened out.
以富含镍的矿石为原料,制备了五种催化剂,确定了最佳催化剂。
15.
Studies on the Preparation, Characterization of Magnetic Photocatalytic Compound and Photoreduction to Cr(VI);
磁性复合体光催化材料制备、表征及对Cr(VI)的光催化还原研究
16.
Preparation of Fe(Ⅲ) Immobilized Collagen Fiber and its Catalytic Behaviors in Visible Light-assisted Degradation of Dye
胶原纤维负载铁催化剂在可见光作用下降解染料的催化特性
17.
Preparation of Ti-Zr-V-O Catalytic Composite Material and its Selective Catalytic Reduction of NO
Ti-Zr-V-O复合催化材料的制备及其选择性催化还原NO
18.
Electrocatalytic Performance of Carbon Supported Ru-Fe Catalyst for Oxygen Reduction in Direct Formic Acid Fuel Cell
炭载Ru-Fe催化剂对直接甲酸燃料电池中氧还原的电催化性能研究