1.
acetylene reduction test
乙炔还原试验[检查生物体的固氮能力]
2.
Method for pneumatic test of dissolved acetylene cylinders
GB/T13003-1991溶解乙炔气瓶气压试验方法
3.
The Effect of Crystal Size on Selective Catalytic Reduction of NO_x by Acetylene over Zeolites;
沸石的晶粒度对乙炔选择催化还原NO_x的影响
4.
Selective Catalytic Reduction of NO_x by Acetylene over Zirconium Based Zeolites in Lean-burn Condition;
锆基催化剂上乙炔选择催化还原NO_x研究
5.
The results in three years indicated that the method of acetylene reduction in vivo was move fast, convenient, simple and reliable.
经三年实验表明,乙炔还原活体测定共生固氮的方法是快速、灵敏、简便、可靠的。
6.
Comparative Test between Oxygen-LPG Cutting and Oxygen-acetylene Gas Cutting
氧—液化石油气,氧—乙炔气的切割对比试验
7.
Mechanistic Study of NO Reduction by Acetylene on ZSM-5 and Selective Catalytic Reduction of NO by Acetylene over Y/HZSM-5;
ZSM-5型分子筛上乙炔还原NO的机理探讨及Y/HZSM-5上的NO还原研究
8.
Selective Catalytic Reduction of NO_x by Acetylene Over Cerium Based Zeolites;
乙炔为还原剂在Ce基催化剂上选择催化还原NO_x的研究
9.
Selective Catalytic Reduction of NO_x by Acetylene over Mordenite-based Catalysts;
MOR分子筛基催化剂上乙炔作还原剂选择催化还原NO_x的研究
10.
ELECTROCATALYTIC REDUCTION AND ELECTROINITIATED POLYMERIZATION OF ACETYLENE ON COPPER/GRAPHITE ELECTRODES
乙炔在铜/石墨阴极上的电催化还原加氢和电引发聚合
11.
The reading of symbiotic N fixation from acetylene reduction method in vivo were remarkably higher than those from the method in vitro.
所测共生固氮值极显著,高于乙炔还原离体方法估测值;
12.
Selective Catalytic Reduction of NO_x by Acetylene over Tungsten Based Zeolites Catalyst in Lean-burn Condition;
钨基分子筛催化剂上乙炔选择催化还原NO_x的研究
13.
Selective Catalytic Reduction of NO_x by Acetylene over the Ce-HY and MoO_3/HZSM-5 Catalysts;
Ce-HY与MoO_3/HZSM-5催化剂上乙炔选择催化还原NO_x的研究
14.
Mechanism Study on Selective Catalytic Reduction of NO_x by C_2H_2 over ZSM-5 and Ferrierite Based Catalysts
乙炔在ZSM-5和ferrierite基催化剂上选择还原氮氧化物的机理研究
15.
Experiment Study on the Selective Catalytic Reduction of NO_x with Ethylene and Catalyst Cu-ZSM-5
以Cu-ZSM-5为催化剂乙烯选择性催化还原烟气脱硝的试验研究
16.
DETERMINATION OF VANADIUM IN STEEL BY ATOMIC ABSORPTION SPECTROSCOPY WITH AN OXYGEN SHEATHED AIR-ACETYLENE FLAME
氧屏蔽空气-乙炔火焰原子吸收测定钒
17.
Analysis on reasons of acetylene cleaning failure and pipe deposit
乙炔清净失效和管道结垢的原因探析
18.
Deactivation of PdCl_2/C Catalyst in Hydrochlorination of Acetylene
乙炔氢氯化PdCl_2/C催化剂失活原因分析