1) pyrolysis product
热解成分
1.
Pyrolysis gas chromatography-mass spectrometry was used to analyse the pyrolysis products of some domestic brand cigarettes.
应用热解与气相色谱 质谱联用技术 (Py GC/MS) ,在无氧条件下对部分国产卷烟样品进行了热解成分分析。
2) pyrolysis
热解
1.
The study progress of technology of pyrolysis of waste tines;
废橡胶热解技术研究进展
2.
Research on pyrolysis of spent alkaline zinc manganese dioxide batteries in a rotary kiln;
回转窑热解处理废锌锰电池试验研究
3.
Influencing factors and product property of low temperature pyrolysis of oil sludge;
含油污泥低温热解的影响因素及产物性质
3) Pyrogenation
热解
1.
Experimental study on the characteristics of the Nitrogen releasing during pyrogenation of soft coal,carbonaceous coal and their blends;
烟煤、贫煤及其混煤氮热解释放特性试验研究
2.
Analysis of organic compounds in the pyrogenation gas products of longjing tea;
龙井茶叶热解气体产物中有机物的分析
3.
The experimental research about the pyrogenation characteristics of corn-straw at the different conditions;
玉米秸秆在不同条件下热解规律实验研究
4) thermal degradation
热解
1.
The intercalated structures of the prepared polypropylene/montmorillonite(PP/MMT) nanocomposites were characterized with X-ray diffraction(XRD) and transmission electron microscopy(TEM),whereafter their thermal degradation mechanism and combustion properties were investigated by thermal gravimetry(TG),cone calorimetry,limited oxygen index(LOI),and UL 94 tests.
采用X射线衍射和透射电镜对所制备的聚丙烯/蒙脱土(PP/MMT)插层纳米复合材料的结构进行表征;通过热分析、锥形量热、氧指数、垂直燃烧测试对其热解和燃烧性能进行了研究。
2.
The thermal degradation of samples has been studied by thermal analysis, CONE calorimeter and IR.
将麻纤维用含氮、磷、卤的无机阻燃化合物处理 ,所得阻燃纤维采用热分析、锥形量热分析、红外光谱研究其热解行为 ,用氧指数、剩碳率、热释放速率和有效燃烧热等参数表征它的阻燃性能 ,并用Broido方程计算麻纤维的动力学参数热解活化能的变化。
3.
The thermal degradation experiments were carried out for some combustibles such as plastic, hardboard, cloth, board, and thipywood which are common in buildings.
对建筑物中常见的几种可燃物:塑料、硬纸板、布料、三合板、木板等,进行了热解实验,给出了其失重曲线,并导出了热解反应动力学参数———活化能E和频率因子A。
5) Thermal decomposition
热解
1.
Kinetics of thermal decomposition of MnCO_3;
碳酸锰热解过程的动力学
2.
Using rice hull as raw material, silica nano-particles are prepared by thermal decomposition method.
以稻壳为原料,通过热解法制备SiO2纳米粉体。
3.
Brown coal and biomass all have the characteristics of thermal decomposition of their chemical structure.
对于一定的煤及生物质来说,三种形态产物的产率将因热解条件不同而有差异。
6) thermolysis
热解
1.
Preparation of BN matrix composites by precursor thermolysis;
先驱体热解制备BN复合陶瓷材料研究进展
2.
Energy balance for process of waste tires thermolysis;
废旧轮胎热解过程的能耗分析
3.
Constant temperature time affected to rich hydrogen fuel gas from coal slurry water thermolysis;
恒温时间对煤泥水热解制备富氢燃料气影响的研究
参考词条
补充资料:废物热解
分子式:
CAS号:
性质:是在缺氧或无氧条件下废物的热分解过程。热解温度为500~800℃,比焚烧温度低。有机废物的热解可得到能分离、回收和再利用的气体或液体燃料。另外,由于热解温度相对较低,因此热解过程产生的氮氧化物(NOχ)少,而且尾气排放量也少。目前,发达国家已有城市垃圾、废塑料和废轮胎热解处理的工业化装置,但成功运行的这类工业化装置毕竟还很少,因此从总体来说,废物热解技术尚处在试验性生产的中试阶段。
CAS号:
性质:是在缺氧或无氧条件下废物的热分解过程。热解温度为500~800℃,比焚烧温度低。有机废物的热解可得到能分离、回收和再利用的气体或液体燃料。另外,由于热解温度相对较低,因此热解过程产生的氮氧化物(NOχ)少,而且尾气排放量也少。目前,发达国家已有城市垃圾、废塑料和废轮胎热解处理的工业化装置,但成功运行的这类工业化装置毕竟还很少,因此从总体来说,废物热解技术尚处在试验性生产的中试阶段。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。