1) solid absorbent treatment
固体吸附剂处理
2) solid adsorbent
固体吸附剂
1.
The new solid adsorbents for desulfurization of fluid catalytic cracking gasoline were reviewed.
指出吸附剂吸附选择性和吸附容量的提高和吸附机理的深入研究是脱硫固体吸附剂研究的重要方向。
2.
To enhance the liquid dehumidification ability,this presents paper the research from two sides:improvement of the dehumidifier by introducing solid adsorbent on its surface;and the use of mixed solution as liquid desiccant.
为了提高溶液除湿能力,本文介绍了从除湿器和除湿溶液两个方面进行改进的研究结果:利用固体吸附剂对溶液除湿器表面进行了处理;利用混合溶液作为溶液除湿剂。
3) Solid sorbent
固体吸附剂
1.
Some relevant experiments have been done in the technology of gaseous mercury sample and analysis by solid sorbent, which is also used in the measurement of mercury emission from an i.
50476056),就基于固体吸附剂的烟气汞采集分析技术进行相关研究,并运用该技术对某垃圾焚烧炉汞排放情况进行测量。
4) solid absorbent
固体吸附剂
1.
Using some solid absorbents, using transformer oils were regenerated in different conditions.
采用了几种不同的固体吸附剂在不同的条件下对用过变压器油进行再生处理,使油品在颜色和酸值两个方面得以改善,并找出最适宜的固体吸附剂及处理条件。
5) in situ treatment of adsorbent
吸附剂现场处理
6) solid adsorption
固体吸附
1.
Research status and progress of solid adsorption desiccant air conditioning system;
固体吸附式除湿空调系统及其研究进展
2.
For the solar energy solid adsorption rotary refrigeration system using activated carbon fiber-ethanol as its pair,one-dimensional uniform pressure field mathematical model along the circumference of adsorbent bed was adopted to carry out a static simulation calculation of the temperature field of the adsorption wheel bed.
针对活性炭纤维-乙醇太阳能固体吸附式转轮制冷系统,采用沿吸附床周向的一维均匀压力场数学模型,对转轮吸附床温度场进行了静态模拟计算;从吸附床的内、外部特性参数出发,全面而系统地分析了这些参数的改变对系统性能、平衡脱附率以及吸附量的影响。
3.
A review and a comprehensive analysis was made of the research and application of the solid adsorption heat storage technology, the key problem of solid adorption heat storage technology was put forward, research progress of ad- sorption heat storage workong pairs and optimization of mass and heat transfer through the heat storage beds was clarified.
对国内外吸附蓄热研究现状进行了回顾和综合分析,提出了固体吸附蓄热技术的关键问题,重点阐述了吸附畜热工质对和蓄热床传热传质优化的研究进展。
补充资料:复合固体推进剂氧化剂
分子式:
CAS号:
性质:它提供推进剂自持燃烧所需的氧。要求氧化剂的有效氧含量高、密度大、生成热高、分解产物为气体、安定性好,与推进剂组分化学相容。氧化剂品种、含量、颗粒形状、粒度及粒度分布对推进剂的能量、燃烧、力学、工艺、安全等性能有重要影响。在推进剂中用量一般占60%~75%,常用的氧化剂有高氯酸铵、硝酸铵、奥克特今、黑索今等。
CAS号:
性质:它提供推进剂自持燃烧所需的氧。要求氧化剂的有效氧含量高、密度大、生成热高、分解产物为气体、安定性好,与推进剂组分化学相容。氧化剂品种、含量、颗粒形状、粒度及粒度分布对推进剂的能量、燃烧、力学、工艺、安全等性能有重要影响。在推进剂中用量一般占60%~75%,常用的氧化剂有高氯酸铵、硝酸铵、奥克特今、黑索今等。
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