用于玻璃器皿清洗的实验室通风水槽:设计、安装和评价

Ken Schmerber, Kevin Borud, Marc Rothney, Amy Doane
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引用次数: 2

摘要

目前有许多清洁实验室玻璃器皿的方法。罗氏科罗拉多公司(RCC)是一家责任关怀公司,现有的分析方法限制了洗碗机和其他自动玻璃器皿清洁系统的使用。因此,以溶剂为基础的实验室玻璃器皿清洗是为了去除干扰残留物,并代表潜在的职业接触化学品的区域。典型的清洗步骤包括最初的溶剂清洗,肥皂和水清洗,以及最后的溶剂冲洗以干燥玻璃器皿。丙酮是用于此目的的常用溶剂,美国政府工业卫生学家会议(ACGIH)的TLV-TWA(8小时)为500 ppm, TLV-STEL(15分钟)为750 ppm。玻璃器皿清洗期间的暴露监测表明,空气中丙酮的浓度可能超过这些职业暴露限值(OELs)。为了解决潜在的丙酮蒸汽暴露问题,设计并实施了工程控制,包括定制的台面开槽水槽罩和水槽内下沉系统。现场验证表明,这两种通风汇都能有效地控制空气中丙酮浓度远低于丙酮的OELs。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Laboratory ventilated sink use for glassware cleaning: Design, installation, and evaluation

Numerous methods for cleaning laboratory glassware are currently available. Existing analytical method constraints at Roche Colorado Corporation (RCC), a Responsible Care company, limit the use of dishwashers and other automated glassware cleaning systems. Therefore, solvent-based laboratory glassware cleaning is performed to remove interfering residues, and represents an area of potential occupational exposure to chemicals. Typical cleaning steps include an initial solvent wash, soap and water cleansing, and a final solvent rinse to dry the glassware. Acetone, a common solvent used for this purpose, has an American Conference of Governmental Industrial Hygienist (ACGIH) TLV-TWA (8 hr) of 500 ppm and TLV-STEL (15 min) of 750 ppm. Exposure monitoring during glassware cleaning indicated that airborne concentrations of acetone may exceed these occupational exposure limits (OELs). To address the potential exposure to acetone vapors, engineering controls, consisting of a custom countertop slotted sink hood and an in-sink downdraft system, have been designed and implemented. Field validation indicated that both ventilated sinks were effective at controlling airborne acetone concentrations well below acetone's OELs.

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