摘要
随着经济社会的快速发展和人民生活水平的不断提高,车辆已经成为日常生活的必需品。然而,随着汽车使用频率的增加,车内空气污染问题引起了广泛关注。本研究提出了一种基于臭氧发生器的车内空气净化技术,并对其应用前景进行了分析。此项技术采取臭氧发生器和通风设备的方式进行空气净化。实验结果表明,该技术能有效消除车内的微生物、有害气体和颗粒物,其中细菌去除率可达99%。此外,能量消耗低、易于维护等优点让该技术在实际应用中具有很好的前景。然而,臭氧的使用也需要注意其可能产生的副作用,如臭氧浓度过高会对人体有害。因此,确保臭氧浓度在安全范围内是设备设计的关键。鉴于此,研究还深入探讨了设备的优化设计和安全采取措施。预期随着技术的完善,基于臭氧发生器的车内空气净化技术将在汽车环保领域发挥重要作用。
With the rapid development of the economy and society and the continuous improvement of people's living standards,vehicles have become a necessity in daily life.However,with the increasing frequency of car usage,the problem of air pollution inside cars has attracted widespread attention.This study proposes a car interior air purification technology based on ozone generators and analyzes its application prospects.This technology uses ozone generators and ventilation equipment for air purification.The experimental results show that this technology can effectively eliminate microorganisms,harmful gases,and particulate matter in the car,with a bacterial removal rate of up to 99%.In addition,the advantages of low energy consumption and easy maintenance make this technology have great prospects in practical applications.However,the use of ozone also requires attention to its potential side effects,such as harmful effects on human health if the ozone concentration is too high.Therefore,ensuring that ozone concentration is within a safe range is key to equipment design.In view of this,the study also delved into the optimization design of equipment and the implementation of safety measures.It is expected that with the improvement of technology,in car air purification technology based on ozone generators will play an important role in the field of automotive environmental protection.
作者
王天琦
Tianqi Wang(Shenzhen Huiyantong Technology Co.,Ltd.,Shenzhen,Guangdong 518000)
出处
《生态学与可持续发展研究》
2025年第3期51-53,共3页
Research on Ecology and Sustainable Development
关键词
臭氧发生器
车内空气净化
微生物消除
必要的安全措施
技术应用前景
ozone generator
air purification inside the car
microbial elimination
necessary safety measures
technology application prospects
作者简介
王天琦,大专,研究方向为土木工程。
