Remediation of ozone pollution by ornamental plants in indoor environment.

P. Saxena, S. Sonwani
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引用次数: 13

Abstract

The indoor air quality is much more matter of concern as relative to ambient or outdoor air quality, especially in the context of human health.  However, very few studies have been reported for remediation of indoor ozone by plant species. The main objective of this study is to evaluate ozone deposition velocities and ozone removal effectiveness of three indoor ornamental plant species (Dracaena deremensis, Tagetes erecta and Lilium candidum) that can be used in the remediation of indoor ozone. Ozone deposition velocity was estimated through measurement of leaf surface areas of selected plant species and exposing them to 3-regular daytime cycles where ozone concentrations under controlled conditions first increased from 8 h followed by 16 h in the absence of ozone. Values of ozone deposition velocity after the completion of first exposure were found maximum (7.7 m/h) in case of Dracaena deremensis and minimum (0.5 m/h) after the completion third exposure in Lilium candidum. The ozone removal effectiveness found in the range of 0.7 to 13% for leaf surface area to room volume ratio of 0.06/m with reference to an air exchange system and background loss present in an indoor environment. Among the selected plant species, Dracaena deremensis has got the highest ozone deposition velocity as well as ozone removal effectiveness and Lilium candidum has got the lowest values. Hence, this study concludes with the sustainable use of ornamental plant species in the remediation of the indoor ozone pollution, which can further help in improving the health condition of the residents.
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室内环境中观赏植物对臭氧污染的修复
相对于环境或室外空气质量,室内空气质量更令人关注,尤其是在人类健康的背景下。然而,很少有关于植物物种修复室内臭氧的研究报告。本研究的主要目的是评估三种可用于室内臭氧修复的室内观赏植物(龙血树、万寿菊和百合)的臭氧沉积速度和臭氧去除效果。臭氧沉积速度是通过测量选定植物物种的叶表面积并将其暴露于3个规则的日间周期来估计的,在控制条件下,臭氧浓度首先从8小时增加,然后在没有臭氧的情况下从16小时增加。在Dracaena deremensis的情况下,发现第一次暴露完成后的臭氧沉积速度值最大(7.7m/h),在Lilium candium的情况下发现第三次暴露完成时的臭氧沉积速率值最小(0.5m/h)。根据空气交换系统和室内环境中存在的背景损失,当叶表面积与房间体积比为0.06/m时,臭氧去除效率在0.7%至13%的范围内。在选定的植物物种中,龙血树的臭氧沉积速度和臭氧去除效果最高,而白百合的臭氧沉积速率和臭氧去除效率最低。因此,本研究得出结论,可持续利用观赏植物物种修复室内臭氧污染,有助于进一步改善居民的健康状况。
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来源期刊
CiteScore
7.90
自引率
2.90%
发文量
11
审稿时长
8 weeks
期刊最新文献
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