方法:按照《消毒技术规范》标准进行细菌总数检测;用VITEK - 32型全自动细菌鉴定仪鉴定细菌。
Method: The bacterium total was examined following "The Standard of Disinfection Technology", fully-automatic germ analysis system in type VITEK-32 was used for bacterium identification.
在2004年,环境保护局对任意抽取的158架客机上的饮用水进行检测,发现有20架(12.7%)大肠菌细菌的总数上合格。
In 2004, the Environmental Protection Agency tested the drinking water on 158 randomly selected passenger planes and found that 20 (12.7%) tested positive for total coliform bacteria.
准备实验检测细菌总数并做记录。
Doing the experiments to check Bacteria and recoring the results.
目的初步建立检测矿泉水中细菌总数的微菌落技术。
Objective To establish a microcolony method for detecting the total bacterial number in Mineral water.
集中空调关闭期间,采集集中空调通风系统送风管内的积尘样品,检测其细菌总数、真菌总数;
Dust sample in blast pipe was collected when centralized air ventilation system was off, the total content of the bacterium and fungus was examined.
结论白细胞功能试验LAAT在评估细菌感染后急性相反应程度方面优于白细胞总数检测。
Conclusion The functional test of LAAT might be superior to total white blood cell count in assessing acute phase response after acute bacterial infection in children.
同传统平板计数方法相比,阻抗法检测鲜牛奶中细菌总数不仅快速、准确,且操作简便。
Comparing to traditional plate count method, Impedance method was a rapid, accurate and convenient method of determination of bacterial Numbers in raw milk exporting.
检测菌落总数,观察菌落形态,并对灭菌后残存的细菌特性进行分析。
Examining colony lump-sum, observes colonial morphology and makes analysis on the bacterial characteristic after sterilization .
对啤酒样品进行细菌富集后,采用AT P生物发光技术制作标准曲线,快速检测样品中的菌落总数。
After concentrating bacteriums of the beer sample, Uses the ATP bioluminescence technology to Manufacture standard curve and rapid examine the colony total of sample.
目的探讨一种能精确检测纸巾细菌总数的方法。
Objective To find a method of counting bacterium on tissues accurately.
针对细菌总数现场检测需求,设计了一种基于ATP(三磷酸腺苷)生物发光技术的细菌总数现场快速检测仪。
A rapid detection meter for bacterial count based on ATP (adenosine triphosphate) bioluminescence technology was designed.
针对细菌总数现场检测需求,设计了一种基于ATP(三磷酸腺苷)生物发光技术的细菌总数现场快速检测仪。
A rapid detection meter for bacterial count based on ATP (adenosine triphosphate) bioluminescence technology was designed.
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