1) aerosol deposition system
悬浮沉积体系
1.
Upside Xisha Trough with high angle belonged to aerosol deposition system,lower side Xisha Trough with low angle belonged to turbidite and slump system,bottom Xisha Trough with gentle area belonged to fluvial system.
西沙海槽上部高陡带为悬浮沉积体系,下部低缓带为浊流滑塌沉积体系,槽底平缓带为河流沉积体系。
2) suspended sediment
悬浮沉积物
1.
Acoustic measurement of suspended sediments with ADCP and its error analysis;
ADCP对悬浮沉积物浓度的测量及其误差分析研究
3) sedimentation of suspension
乳胶体沉积;悬浮物的沉积
4) suspension
[英][sə'spenʃn] [美][sə'spɛnʃən]
悬浮体系
1.
Rheological, sedimental and fractal study of nano-SiO_2 suspension system;
纳米SiO_2悬浮体系中的流变、沉降与分维研究
2.
Manganese oxide suspensions were obtained in the synthesis of mesoporous mangan ese oxides via sol-gel method or surfactant (polyoxyethylene fatty alcohol, AEO 9) template method.
对介孔氧化锰的溶胶 -凝胶法合成和用表面活性剂 (脂肪醇聚氧乙烯醚 ,AEO9)的模板合成过程中所得的悬浮体系的流变性质进行了对比研究 。
3.
The behavior of rheology of the pesticide suspension was studied in detailed, judging the stability of suspension by using the technique of relative value of approach, a better result was obtained.
详细地研究了粉·福(粉锈宁+福美双)悬浮剂的流变学行为,提出了用相对趋近值来判断悬浮体系的物理稳定性,并取得了良好的效果。
5) suspension system
悬浮体系
1.
The effects of different solvent on the stability of the suspension system and the microstructure of the film were investigated through deposition current measurement and SEM observation.
为了降低固体氧化物燃料电池(SOFC)的操作温度,采用恒压电泳沉积方法在NiO-YSZ阳极基体上制备了YSZ电解质薄膜,通过电泳沉积电流的测量及SEM测试,研究了不同分散介质对悬浮体系稳定性及YSZ膜微观结构的影响,分析了I2、PVB作为添加剂在电泳沉积过程中的作用机理。
6) sediment resuspension
沉积物再悬浮
1.
Effects of sediment resuspension on the growth of submerged plants;
沉积物再悬浮对沉水植物生长的影响研究
2.
An experimental study of the effects of sediment resuspension on phytoplankton;
沉积物再悬浮对浮游藻类影响的模拟实验研究(英文)
3.
A new Y-shape apparatus, which simulated hydrodynamic condition in situ driven by wind and wave, was adopted to study sediment resuspension and settlement process in macrophytes dominated lake areas in Lake Taihu.
采用Y型旋浆式沉积物再悬浮装置研究了不同风速下太湖水生植被区沉积物的再悬浮和沉降过程。
补充资料:悬浮
分子式:
CAS号:
性质:固体微粒分散在流体中称为悬浮。例如,以固体微粒为分散相的液溶胶称为悬浮液或悬浊液。固体悬浮的操作范围很广,颗粒的自由沉降速度为0.025~0.10m/s,而固体浓度可高达50%(质量分数)。
CAS号:
性质:固体微粒分散在流体中称为悬浮。例如,以固体微粒为分散相的液溶胶称为悬浮液或悬浊液。固体悬浮的操作范围很广,颗粒的自由沉降速度为0.025~0.10m/s,而固体浓度可高达50%(质量分数)。
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