1) Heating by photoelectron
光波加热
2) microwave heating
微波加热
1.
Preparation of lowly-hydrated zinc borate by microwave heating;
微波加热制备低水硼酸锌
2.
Preparation of high specific surface area activated carbon from tobacco stem with potassium carbonate activation by microwave heating;
微波加热碳酸钾法制备烟杆基高比表面积活性炭
3.
Mechanisms and significance of microfractures generated by microwave heating in sandstone reservoirs;
砂岩储集层微波加热产生微裂缝的机理及意义
3) microwave radiation
微波加热
1.
A modified method is introduced to prepare BST ceramic powder by sol-gel method using microwave radiation and polymer dispersant.
采用微波加热技术和添加高分子分散剂,通过sol-gel法制备BST纳米粉体,再将纳米粉分散于BST溶胶中,通过分步甩胶工艺,制备BST陶瓷膜。
2.
Taking corn residue as material, corn pigment was extracted with microwave radiation which was studied in this paper.
研究了以玉米皮为原料,用微波加热法提取玉米黄色素,并通过改变溶剂、提取温度、提取时间等条件对产品提取率的影响进行了探讨,获得最佳的提取条件;该方法与传统提取方法相比,具有工艺简便、成本低、时间短、污染小、产品收率高等优点。
3.
The basic theory of microwave radiation and the heatingup characteristic of some mineral in microwave are introduced, and the current situation and recent progress of microwave radiation applied to metallurgical carbon-thermal reduction is emphasized.
介绍了微波加热的基本原理以及矿物在微波场中的升温特性,重点介绍了微波加热在冶金碳热还原中的应用现状,并分析了微波加热碳热还原技术应用于铁合金生产的前景。
4) Microwave-heating
微波加热
1.
Tthe principium of microwave-heating is simply introduced,the research situations of Water Treatment Technology of microwave Technology are summarized in this paper,and the research orientation is also pointed out.
简单介绍了微波加热的原理,对微波法水处理技术的研究现状进行了综述,指出了微波法水处理技术的研究方向。
2.
And the influence of microwave-heating time on structure, morphology and charge/discharge performance of the products was discussed.
另外还研究了加热时间对所得样品的影响,XRD、SEM、CV和充放电测试等结果表明:微波加热9min时得到样品的晶粒比较小而且均匀,其电化学性能最好。
3.
The basic principle and advantage in microwave-heating are introduced in the article.
介绍了微波加热的原理和优点,并针对微波技术在化学工业中的应用情况进行了综述分析,指出了微波技术在化工应用中存在的问题。
6) fast wave heating
快波加热
补充资料:光波传播
光波传播 light wave propagation 可见光、红外线和紫外线在大气中的传播。光波在大气中传播时,受到大气的吸收、散射、折射和闪烁等影响,影响程度与光波波长有密切关系。红外线波长范围为0.70微米~1毫米,是介于无线电波和可见光之间的相当宽的重要波段。其中300微米~1毫米区域的波又称为亚毫米波,有时也被划入无线电波的范围。大气对红外辐射传输的影响,主要表现为吸收和散射。大气对红外辐射的吸收,主要是由大气中的水蒸气、二氧化碳和高层大气中的臭氧分子所造成。可见光波长范围为380~700纳米。地球大气对可见光是透明的,散射、折射和闪烁是可见光在大气传输中的重要现象,同时还须考虑色散和某些吸收。可见光的波长比较短,瑞利散射的作用变得很重要,而且蓝色光的瑞利散射比红光更为强烈,因而天空看起来经常是蔚蓝色的。紫外线波长范围为10~380纳米,大气对紫外线的吸收非常强烈,只对波长为300纳米以上的近紫外线才允许有一定程度的透过。对于300纳米以下的紫外线,大气几乎是完全不透明的。 |
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