1) component of pyrolysis gas
热解气组分
2) Pyrolysis gas components
热解气体组份
3) Pyrolysisgas chromatography
热分解气相色谱
4) pyrolysis gas
热解气体
1.
The experiments on characteristics of NO reduction using pulverized coal and pyrolysis production of bituminous coal were carried out separately at different temperatures in a fixed-bed reactor,through which the NO reduction characteristics of pyrolysis gas,char,and pulverized coal were studied.
在固定床反应器中,不同温度下将烟煤煤粉及其热解产物分别对NO进行还原性实验,研究了热解气体、焦炭以及煤粉的还原作用。
5) pyrolysis/gasification
热解气化
1.
The influence of moisture on the characteristics of MSW pyrolysis/gasification process is investigated at a temperature range of 600-800℃ by using a large inventory isothermal TGA and an on-line gas product analysis.
利用自行设计的大物料量等温热重实验装置及气体产物在线分析装置,就气化反应温度段600~800℃的范围内,水分对城市生活垃圾热解气化特性影响进行了实验研究。
2.
The design and development of waste treatment technologies have gained focused attention in the world, while the pyrolysis/gasification process is proved to be as an effective technology for the waste treatment, which can reduce the .
城市生活垃圾处理技术的开发已受到世界各国的共同关注,热解气化技术在降低污染物排放(如二噁英、重金属等)及提高能源利用率方面已成为处理这种“离位资源”的新型有效技术。
6) pyrolysis and gasification
热解气化
1.
The research of conditions for pyrolysis and gasification of sugarcane bagasse in steam;
水蒸气氛围下甘蔗渣热解气化条件的研究
2.
The principle of pyrolysis and gasification of waste is introduced,the pyrolysis experiment of medical waste in an external heated fixed-bed is carried out,and the pyrolysis products are sampled and monitored.
介绍了垃圾热解气化的原理,进行了医疗垃圾外热式固定床热解实验,对热解产物进行了取样监测。
3.
The treatment situation of medical wastes in China is introduced,the mechanism of dioxins production and control measures in procedure of waste thermal treatment are analyzed,and the principle and advantages for treating medical wastes by pyrolysis and gasification,especially its inhibitory effect on the synthesis of dioxins are discussed.
介绍了国内医疗垃圾的处理现状,分析了在垃圾的热处理过程中,二口恶英的产生机理和控制措施,论述了热解气化法处理医疗垃圾的原理、优点特别是对二口恶英的合成的抑制作用。
补充资料:激光热解气相色谱法
分子式:
CAS号:
性质:用激光裂解器(1aser pyrolyzer)作为进样器的气相色谱法。在激光照射下,试样温度升高而裂解,产物被载气带入色谱仪进行分离检测。这种裂解装置升温速度快,裂解温度高,次级反应少,死体积小,得到的裂解谱图比较简单。但这种装置的结构较复杂,裂解温度难以控制和测定,且与样品颜色有关,操作也比较复杂。裂解色谱目前应用最广的是高聚物分析,在一定的裂解色谱条件下,不同的高聚物可得到各自的指纹图,用于鉴别各种高聚物。还可测定共聚组成;区分共混物和共聚物;测定某些高聚物端基,从而确定聚合物分子量;测定某些高聚物链结构及对高聚物的热稳定性、耐老化性、加工过程等多种性能进行研究。此外,还可用于医学、生物学等各领域。
CAS号:
性质:用激光裂解器(1aser pyrolyzer)作为进样器的气相色谱法。在激光照射下,试样温度升高而裂解,产物被载气带入色谱仪进行分离检测。这种裂解装置升温速度快,裂解温度高,次级反应少,死体积小,得到的裂解谱图比较简单。但这种装置的结构较复杂,裂解温度难以控制和测定,且与样品颜色有关,操作也比较复杂。裂解色谱目前应用最广的是高聚物分析,在一定的裂解色谱条件下,不同的高聚物可得到各自的指纹图,用于鉴别各种高聚物。还可测定共聚组成;区分共混物和共聚物;测定某些高聚物端基,从而确定聚合物分子量;测定某些高聚物链结构及对高聚物的热稳定性、耐老化性、加工过程等多种性能进行研究。此外,还可用于医学、生物学等各领域。
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