开发一种新的被动示踪气体测试方法，用于测量空气变化率

IF 1.1 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

International Journal of Ventilation Pub Date : 2020-06-17 DOI:10.1080/14733315.2020.1777660

S. L. Paralovo, M. Spruyt, J. Lauwers, Rudi Swinnen, B. Lazarov, M. Stranger, J. Laverge

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引用次数: 1

摘要

通风是解释室内空气质量(IAQ)的关键，但大多数室内空气质量评估没有充分报告通风。大多数通风评估使用示踪气体测试(TGT)来测量总空气变化率(ACH)，但目前应用的TGT存在三个缺点:ACH和室内空气质量数据之间的可比性有限，用作示踪气体的物质不足，以及由于完美混合假设而产生的偏差倾向。本文提出了一种新的TGT方法，采用一种替代示踪气体，使用商业被动iaq采样器捕获/分析，并包括一个仔细的计划阶段，以解释不完美的混合。选择两种物质作为潜在的替代示踪剂:2-丁氧乙基乙酸酯(EGBEA)和氘化癸烷(d -癸烷)。在实验室中执行了示踪源测试，从而增强了源设计。结果表明，RH对排放率有影响，EGBEA作为示踪剂的使用由于吸湿而被放弃。进一步的工作包括评估d -癸烷在不同条件下的行为和计算机模拟tgt来研究不完全混合效应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Developing a new passive tracer gas test for air change rate measurement

Abstract Ventilation is critical in interpreting indoor air quality (IAQ), yet most IAQ assessments do not report ventilation adequately. Most ventilation assessments use tracer gas tests (TGT) to measure total air change rate (ACH), but currently applied TGTs present three shortcomings: limited comparability between ACH and IAQ data, inadequate substances employed as tracer gases and tendency to bias arising from perfect-mixing assumption. This paper proposes a new TGT approach, employing an alternative tracer gas that is captured/analysed using commercial passive IAQ-samplers and including a careful planning-phase to account for imperfect-mixing. Two substances were selected as potential alternative tracers: 2-butoxyethyl-acetate (EGBEA) and deuterated decane (D-decane). Tracer-source tests were performed in lab, enabling enhancements to the source design. Results indicated RH influence over the emissions rates, and EGBEA’s use as tracer was discarded due to hygroscopy. Further work includes evaluating D-decane’s behaviour under varying conditions and computer-simulating TGTs to study the imperfect-mixing effects.

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来源期刊

International Journal of Ventilation CONSTRUCTION & BUILDING TECHNOLOGY-ENERGY & FUELS

CiteScore

3.50

自引率

6.70%

发文量

审稿时长

>12 weeks

期刊介绍： This is a peer reviewed journal aimed at providing the latest information on research and application. Topics include: • New ideas concerned with the development or application of ventilation; • Validated case studies demonstrating the performance of ventilation strategies; • Information on needs and solutions for specific building types including: offices, dwellings, schools, hospitals, parking garages, urban buildings and recreational buildings etc; • Developments in numerical methods; • Measurement techniques; • Related issues in which the impact of ventilation plays an important role (e.g. the interaction of ventilation with air quality, health and comfort); • Energy issues related to ventilation (e.g. low energy systems, ventilation heating and cooling loss); • Driving forces (weather data, fan performance etc).