介绍了某电子半导体洁净生产车间中的干盘管与新风预处理空调系统的原理和水系统的设计。
Presents the principle of this air conditioning system applied to an electronic semiconductor clean plant and the design of its water system.
分析了药厂洁净室专用空调箱内再热盘管与冷盘管之间间距过小是对空气的出风工况产生不利影响的主要原因。
The analysis result is that the space between reheating and cooling coil pipes in air conditioner used in cleaning room in pharmaceutical plant is excessive small.
本文阐述了电子行业洁净室空调的特点,介绍了目前电子行业常采用的干盘管- FFU洁净空调系统并对该系统的空气处理过程进行了分析。
In this paper, the characteristic of cleaning room in the electronic industry was expounded, dry coil and FFU cleaning air conditioning system was introduced, and air conditioning course was analyzed.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10 毫升于250 毫升容量瓶中,用纯水定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipet 10 ml from the ampule into 250 ml volumetric flask and bring to volume by laboratory-pure water.
随后的两个检查站点在管筒进入清洁和填装阶段之前确认管筒在形状上是圆形并且是洁净的。
Two successive inspection stations check that the tubes are round in shape and clean before they go through cleaning and filling stage.
在控制方案上,重点以新风空调机组及干冷盘管为研究对象,着重探讨洁净空调温湿度的控制方案。
As for control scheme, this paper focuses on the MAU and DCC to study the clean room air-condition system temperature and humidity control.
避免大口径管道采用均速管测量非洁净流体时,取压孔被堵塞问题。
The method avoids that hole of taking pressure is blocked by used average-velocity tube to measure unpurged one phase fluid in the big pipe.
应用洁净硬质玻璃管制成细菌微量反应管。
The microscopic reaction tubes of bacterium were prepared by using pure and hard glass tubes.
非洁净室区域,诸如次级包装区、仓库、质控、餐厅和公用房间以及走道等处都提供有风机盘管装置系统。
Non-cleanroom areas such as secondary packaging area, warehouses, QC, canteen and utility rooms, and corridors are served by fan coil unit system.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10 毫升于250 毫升容量瓶中,用0.1%氢氧化钠定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipette 10 ml from the ampoule into 250 ml volumetric flask and bring to volume by 0.1% NaOH solution.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10 毫升于250 毫升容量瓶中,用纯水定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipette 10ml from the ampoule into 250 ml volumetric flask and bring to volume by purified water.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10毫升于250毫升容量瓶中,用1%硝酸或1%盐酸定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipette 10 ml from the ampoule into 250 ml volumetric flask and bring to volume by 1% HNO3 or 1% HCl.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10毫升于250毫升容量瓶中,用纯水定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipette 10 ml from the ampoule into 250 ml volumetric flask and bring to volume by laboratory-pure water.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10 毫升于250 毫升容量瓶中,用1%硝酸定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipette10 ml from the ampoule into 250 ml volumetric flask and bring to volume by 1% HNO3 solution.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10 毫升于250 毫升容量瓶中,用1%硝酸或1%盐酸溶液定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipet 10 ml from the ampule into 250 ml volumetric flask and bring to volume by 1%HNO3 or 1%HCl solution.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10毫升于250毫升容量瓶中,用1%硝酸或1%盐酸定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipette 10 ml from the ampoule into 250 ml volumetric flask and bring to volume by 1% HNO3 or 1% HCl solution.
临用时割开安瓿,用10毫升干燥洁净移液管从安瓿中准确移取浓样10毫升于250毫升容量瓶中,用1%硝酸或1%盐酸定容。
When you use this ERM, please carefully break open the ampoule at the neck and pipette 10 ml from the ampoule into 250 ml volumetric flask and bring to volume by 1% HNO3 or 1% HCl solution.
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