Khayan Khayan, Anwar Taufik, Wardoyo Slamet, Lakshmi Puspita Widyana
Department of Environmental Health, Poltekkes Kemenkes Pontianak, Indonesia.
Department of Nutrition, Poltekkes Kemenkes Pontianak, Indonesia.
J Toxicol. 2019 Jun 2;2019:5283971. doi: 10.1155/2019/5283971. eCollection 2019.
The air quality that is increasingly carrying out pollution as a result of pollution by human activities is of concern to the world, both developed and developing countries. The impact of air pollution is unavoidable, especially for health. Several efforts have been made to suppress the occurrence of pollution starting from the control of sources, media, and protective efforts in human beings. Focusing on protective efforts, this study was carried out by designed respiratory masks capable of adsorbing toxic gases in ambient air by utilizing mask materials on the market with the addition of activated carbon; the study was carried out with an experimental approach. Testing distinguishes the ability of cotton, spunbond, meltblown, and activated carbon as a respiratory mask to absorb toxic gases such as COx, NOx, and SOx. Test statistics are using the ANOVA test with a confidence level of 95%, = 5%. The results show that combining activated carbon, spunbond, and meltblown is more effective compared to respiratory masks made from spunbond and meltblown (surgical masks) in absorbing toxic gases.
由于人类活动造成的污染,空气质量日益受到污染,这引起了世界各国(包括发达国家和发展中国家)的关注。空气污染的影响是不可避免的,尤其是对健康的影响。人们已经做出了多项努力来抑制污染的发生,从源头控制、媒介控制到针对人类的防护措施。本研究聚焦于防护措施,通过利用市场上的口罩材料并添加活性炭,设计出能够吸附环境空气中有毒气体的呼吸口罩;该研究采用实验方法进行。测试区分了棉、纺粘布、熔喷布和活性炭作为呼吸口罩吸收诸如一氧化碳、氮氧化物和硫氧化物等有毒气体的能力。测试统计采用置信水平为95%(α = 5%)的方差分析。结果表明,与由纺粘布和熔喷布制成的呼吸口罩(外科口罩)相比,将活性炭、纺粘布和熔喷布结合起来在吸收有毒气体方面更有效。