1) partial oxidation of CH_4
CH4部分氧化
2) CH 4 oxidation
CH4氧化
1.
The research progresses in the effects of soil temperature on atmospheric CH 4 oxidation in soils were reviewed in this paper.
当温度较低时土壤也具有一定的氧化大气CH4的能力 ,两者具有很高的相关关系 ,但是由于CH4氧化菌对大气CH4具有很强的亲和力以及大气CH4氧化所需活化能较低 ,因此土壤氧化大气CH4对温度的敏感度远低于产CH4,导致温度系数Q10 较小。
3) methane oxidation
CH4氧化
1.
Samples of lessive,one of the most important soil types in the Sanjiang Plain(45°01′-48°28′N,130°13′-135°05′E,the largest fresh water wetland area in China),were incubated to investigate the effect of land-use change on methane oxidation in lessive.
白浆土在不同土地利用方式下CH4氧化潜力存在显著差异。
2.
Laboratory study on methane oxidation of forest soil revealed the vertical profiles of methane oxidation activity.
结果表明,土壤氧化CH4的能力随深度变化明显;5 - 1 5cm土层具有最大CH4氧化活性,在 40 0 μL/LCH4体积分数下,此土层干重土壤CH4最大氧化速率可达3。
3.
Methane oxidation in soil profiles of broad-leaved Korean pine mixed forest in Changbai Mountain;
结果表明 ,土壤氧化CH4的能力随深度变化明显 ;5~ 15cm土层具有最大CH4氧化活性 ,在 4 0 0ppmvCH4浓度下此土层土壤最大氧化速率可达 3。
4) CH4 oxidation potential
CH4氧化潜力
1.
Water regime is one of the most important factors that affect production, oxidation, and emission of CH4, but few research reports are available in the literature about effects of water regime on values and seasonal variation of CH4 production potential and CH4 oxidation potential in rice paddy soil.
结果表明:烤田前,两处理土壤CH4产生潜力和氧化潜力的大小及其季节变化趋势一致,使得两处理CH4排放通量的大小及其季节变化趋势一致;烤田后,持续淹水处理土壤CH4产生潜力明显大于间隙灌溉处理,而CH4氧化潜力明显低于间隙灌溉处理,导致CH4排放通量显著高于间隙灌溉处理(p<0。
5) partial oxidation
部分氧化
1.
Direct partial oxidation of methane to syngas by lattice oxygen of cerium oxide;
CeO_2中晶格氧直接部分氧化甲烷制取合成气的研究
2.
The Resistance of Carbon Deposition of Methane Partial Oxidation Catalyst:the DFT Study;
甲烷部分氧化催化剂抗积碳性能的DFT研究
3.
Progress in partial oxidation of methane to synthesis gas;
天然气甲烷部分氧化制合成气的研究进展
6) partial oxidation process
部分氧化法
1.
Based on the characters of each process and author's practice,it was proposed that the preferred processes to be developed in China are partial oxidation process with natural gas and plasma pyrolysis with coal .
结合方法特点及我国实际情况 ,建议在我国应以天然气部分氧化法和煤等离子体法生产乙炔为主要 ;根据技术的成熟性 ,我国目前应首先考虑选用天然气部分氧化法生产乙炔。
补充资料:部分氧化
见氧化。
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