Hith temperature carbonization furnace is the key equipment during carbonization process.
实现这一转化的关键设备是碳化炉。
Pakistan's coal, because of its high content of volatile matter and non-coking properties, is to be carbonized in a low temperature carbonization plant.
由于含有大量挥发物及具有非焦化性,巴基斯坦的煤需要在低温碳化装置中加以碳化。
Pakistan ' s coal, because of its high content of volatile matter and non - coking properties, is to be carbonized in a low temperature carbonization plant.
由于含有大量挥发物及具有非焦化性,巴基斯坦的煤需要在低温碳化装置中加以碳化。
Heat resistant conveyor belt was developed by the method of forming high strength protective layer through high temperature carbonization of heat insulating layer.
采用使隔热层高温炭化形成高强度保护层的方法制备了耐热输送带。
It's mainly analyzed that the material balance, heat balance calculation and energy consumption of the production process of semi-coke by SJ-low-temperature carbonization furnace.
主要对SJ型低温干馏炉生产半焦的过程进行了物料、热量衡算及过程能耗分析。
Carbon aerogels were prepared from resorcinol and formaldehyde via sol-gel process, high temperature carbonization and atmospheric pressure drying technology with solvent replacement.
以间苯二酚和甲醛为原料,采用溶胶-凝胶工艺,结合高温碳化和溶剂替换常压干燥技术,制备了碳气凝胶。
The correlation of electric conductivity of carbon fibers and carbonization temperature was analyzed. Macroscopic display of CF electric conductivity was explained by microstructure.
分析了炭纤维导电性能与炭化温度的关系,解释了炭纤维导电性的宏观表现与微观结构之间的联系。
Absorptive effect of carbonized material on VOC pollutants as well as effect of carbonization temperature on adsorptive properties are studied.
研究了炭化物对挥发性有机污染物的吸附性能,并研究了炭化温度对吸附能力的影响。
The dependence of structure properties on temperature during carbonization were studied.
并研究了碳化过程中,结构、性能与温度的依存关系。
ULQ plasma with fine confinement and high temperature is obtained after wall carbonization and siliconization.
真空室壁经过碳化、硅化等处理得到高温度稳定约束的ULQ等离子体。
The changes of structure and its effect on performance of polyimide film have been studied at different carbonization temperature.
研究了聚酰亚胺薄膜在不同碳化温度下,材料内部结构转变规律及其对材料性能的影响。
The high-specific surface area activated carbon was prepared from mixture of bamboo char which was carbonization in different temperature under isolation air and KOH.
竹节在隔绝空气的条件下,经不同温度炭化处理后与KOH混合,制取竹节基高比表面积活性炭。
It is found through determination and comparison of I adsorption values that preparation method, carbonization temperature, activated temperature and time, steam input are effecting factors.
通过吸碘值测定比较发现,预处理方式、碳化温度、活化温度、活化时间、水蒸气通入量等对活性矸吸附性能均有影响。
Temperature higher, the carbonization degree is high, but passes high temperature to be beneficial to sodium hyposulfite generation.
温度高碳化度高,但过高的温度对硫代硫酸钠生成有利。
The finite element simulation and the deduced theory show the different changes of the simulated depth of carbonization under different temperature and relative humidity.
通过有限元模拟以及理论推导,还得到了模拟碳化深度在不同温度及相对湿度下的变化情况。
Through the study on carbonization of bamboo at several stages, it is found that carbonization temperature and time are the main factors affecting graphite proportion and electric properties.
通过对竹炭炭化过程的研究,得出炭化温度、炭化时间是影响石墨化和导电性能的重要因素。
The specific surface area of the activated carbon decreases with the increase of carbonization temperature.
随着炭化温度升高,样品比表面积逐渐降低。
The paper introduce the design essentials of furnace temperature and ambience about this carbonization furnace line which is continuum-type for gases.
分析并阐述了连续式双排气体渗碳自动线炉温与气氛均匀性的设计要素。
The high temperature properties, coke reactivity index (CRI) and coke strength after reaction (CSR) are improved with longer carbonization time.
随着结焦时间的延长,焦炭的热态性能,即焦炭反应性(CRI)和反应后强度(CSR),均得到提高。
Through moulding by adding assistant, high temperature calcination, soaking and digestion, filtration, carbonization and drying, strontium carbonate of 97% over purity is produced.
过滤后的溶液浓缩为硫酸铵副产品。粗碳酸锶细粉加助剂成型,高温煅烧、浸煮、过滤、碳化、干燥得纯度为97%以上的碳酸锶。
Through moulding by adding assistant, high temperature calcination, soaking and digestion, filtration, carbonization and drying, strontium carbonate of 97% over purity is produced.
过滤后的溶液浓缩为硫酸铵副产品。粗碳酸锶细粉加助剂成型,高温煅烧、浸煮、过滤、碳化、干燥得纯度为97%以上的碳酸锶。
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