1) catalytic combustion
催化燃烧法
1.
The effects of those on carbon nanofibers synthesized by catalytic combustion process were studied.
研究了碳源与催化剂先体对催化燃烧法制备的碳纳米线的影响。
2.
The catalytic combustion of methylbenzene is compared with non catalytic combustion,it is found that the catalytic combustion has the advantage of lower reaction temperature and less consumption of heat.
用爆炸法制备稀土钙钛矿型系列催化剂 ,以甲苯的燃烧为模型反应 ,对比非催化和催化燃烧法 ,发现催化燃烧法具有反应温度低、热量消耗少的优点 ,通过 XRD,TPR和活性评价等测试 ,得出该类催化剂在催化燃烧反应中起关键作用的因素是它具有低结合能的吸附
3.
The effects of those on carbon nanofibers synthesized by catalytic combustion process were studied.
研究了碳源与催化剂先体对催化燃烧法制备的碳纳米线的影响。
2) catalytic combustion technique
催化燃烧法
1.
In this paper,the synthesis of ball-like carbon materials by catalytic combustion technique was reported,in which acetone and ethanol were employed as carbon sources,nickel nitrate,and iron nitrate as catalytic precursor,and copper plate and platinum filament as the substrate,respectively.
采用催化燃烧法制备碳纳米纤维球形团聚物, 采用乙醇、丙酮分别作为碳源,采用硝酸镍、硝酸铁分别作为催化剂先体,采用铜片和铂丝分别作为基底。
3) ethanol catalytic combustion technique
乙醇催化燃烧法
1.
The ethanol catalytic combustion technique was used to synthesize carbon nanotubes and carbon nanofibers.
乙醇催化燃烧法可以方便的制备出碳纳米管和碳纳米纤维。
2.
We have fabricated straight carbon nanofibers containing coiled carbon nanofibers by ethanol catalytic combustion technique.
研究了采用乙醇催化燃烧法制备的碳纳米纤维的形貌和结构,并且讨论了平直碳纳米纤维与螺旋碳纳米纤维分别对应的生长机制。
4) catalytic combustion
催化燃烧
1.
Studies on dimethyl ether catalytic combustion;
二甲醚催化燃烧研究的进展
2.
Intrinsic kinetics for catalytic combustion of off-gas from acrylonitrile plant;
丙烯腈装置尾气催化燃烧本征动力学
3.
Intrinsic kinetics of lean methane catalytic combustion on coated noble HPA(KMK) catalyst;
有机废气净化催化剂上甲烷催化燃烧动力学研究
5) catalyst combustion
催化燃烧
1.
The activation of catalyst combustion methane sensor is the key problem in the sensor's usage.
催化燃烧型甲烷传感器的激活是传感器使用的关键问题。
2.
After introducing briefly about this Annex and its technical requirements, this paper presents in detail the research progress of emulsion/catalyst combustion as one of the technology bases.
简要介绍即将生效的MARPOL73/ 78公约附则VI《防止船舶造成空气污染规则》 ,并对该法规得以实现的技术保障措施进行了概述 ,较为详细地介绍了课题组研究的乳化 /催化燃烧技
6) catalytic oxidation
催化燃烧
1.
Study on technical condition of catalytic Oxidation in process of effluvium purged;
污水臭气催化燃烧的工艺条件研究
2.
Commercial application showed that the process "desufurization and total hydrocarbon concentration counterpoise-catalytic oxidation" applied to treat organic exhaust gases emitted from the oil separator,floatation tanks,total inlet,floatation residue storages,waste oil tanks,waste alkaline tanks,emergency pools,etc.
工业应用表明,“脱硫及总烃浓度均化-催化燃烧”技术适用于处理石化污水场隔油池、浮选池、总进水口、浮渣罐、污油罐、碱渣罐、事故池等散发的有机物废气,其工业装置自控系统先进、操作简便、能耗低、废气处理效果好,净化后气体符合国家排放标准。
3.
A catalytic combustion catalyst WSH-1 was developed by Fushun Research Institute of Petroleum and Petrochemical for treating organic waste gases,and it was applied in the catalytic oxidation reactor of waste water treatment system at SINOPEC Guangzhou Company.
中国石化广州分公司炼油厂污水处理场催化燃烧处理装置采用WSH-1催化剂处理隔油池等废气,在废气量3 000~4 000 m~3/h(标准状态)、空速18000~24 000 h~1、反应器进口非甲烷总烃含量1 350~4 900μL/L、总硫浓度不大于10 mg/m~3、反应器进口温度250~280℃的条件下,非甲烷总烃平均去除率为96。
补充资料:催化燃烧净化
分子式:
CAS号:
性质:用催化剂使废气中的可燃物质在较低温度下氧化分解的净化方法。先将废气预先混合均匀,然后通过催化剂层再使废气中的可燃组分发生氧化放热反应。由于要求预热温度较低(大部分碳氢化合物及一氧化碳在300~450℃的温度下通过催化层可完全氧化),所需辅助燃料少,设备也小而轻。只适用于含有可燃气体蒸气的废气净化,不适用于含有大量尘粒雾滴的废气净化,也不适于甲烷。
CAS号:
性质:用催化剂使废气中的可燃物质在较低温度下氧化分解的净化方法。先将废气预先混合均匀,然后通过催化剂层再使废气中的可燃组分发生氧化放热反应。由于要求预热温度较低(大部分碳氢化合物及一氧化碳在300~450℃的温度下通过催化层可完全氧化),所需辅助燃料少,设备也小而轻。只适用于含有可燃气体蒸气的废气净化,不适用于含有大量尘粒雾滴的废气净化,也不适于甲烷。
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参考词条