ozonic
简明释义
adj. 臭氧的;含臭氧的;臭氧般的
英英释义
Relating to or resembling ozone, especially in its properties or effects. | 与臭氧相关或类似,特别是在其属性或效果上。 |
单词用法
臭氧层 | |
臭氧空气 | |
臭氧污染 | |
臭氧耗竭 |
同义词
| 富含臭氧的 | 雷暴过后富含臭氧的空气让人精神焕发。 | ||
| 清新的 | 清新的臭氧微风的气味令人耳目一新。 | ||
| 干净的 | We enjoyed the clean, ozonic atmosphere at the mountain retreat. | 我们在山间度假时享受了干净的臭氧氛围。 |
反义词
| 污染的 | 由于交通繁忙,城市里的空气常常是污染的。 | ||
| 陈旧的 | The water in the lake became stale after months without rain. | 湖里的水在几个月没有下雨后变得陈旧。 |
例句
1.Then ozonic-hydrogen peroxide bleaching were carried out and the results show that the higher of Kappa number, the poor of the delignification selectivity and the lower of brightness rising.
然后经过臭氧-过氧化氢漂白,结果表明:卡伯值越高,脱木质素选择性越差,白度上升值越低。
2.R502 is considered to be one refrigerant with good performance, but it will be forbidden to be used because its pollution to the ozonic atmosphere.
R 502被认为是一种性能良好的制冷剂,但由于其对臭氧层的污染即将被禁止使用。
3.Then ozonic-hydrogen peroxide bleaching were carried out and the results show that the higher of Kappa number, the poor of the delignification selectivity and the lower of brightness rising.
然后经过臭氧-过氧化氢漂白,结果表明:卡伯值越高,脱木质素选择性越差,白度上升值越低。
4.She loved the ozonic scent of the ocean breeze.
她喜欢海风中含臭氧的香气。
5.The air felt fresh and ozonic as we walked near the waterfall.
当我们在瀑布附近散步时,空气感觉清新而含臭氧的。
6.After the storm, the ozonic smell filled the neighborhood.
暴风雨过后,邻里弥漫着含臭氧的气味。
7.In the mountains, the ozonic air rejuvenated our spirits.
在山中,含臭氧的空气使我们的精神焕发。
8.The ozonic atmosphere made the hike even more enjoyable.
这种含臭氧的氛围让远足更加愉快。
作文
In recent years, the concept of sustainability has gained significant attention across the globe. As we face the challenges of climate change and environmental degradation, it becomes increasingly important to explore solutions that can help us mitigate these issues. One such solution is the use of ozonic technologies, which leverage the natural properties of ozone to purify air and water, as well as to combat harmful pollutants. Understanding the role of ozonic innovations can lead us toward a healthier planet. Ozone, a molecule composed of three oxygen atoms, is found in the Earth's stratosphere, where it forms a protective layer that absorbs most of the sun's harmful ultraviolet radiation. However, at ground level, ozone can be a harmful pollutant. This dual nature of ozone presents both opportunities and challenges. When harnessed correctly, ozonic technologies can provide effective solutions for improving air quality and ensuring safe drinking water. For instance, ozone is widely used in water treatment facilities to disinfect water by killing bacteria and viruses without leaving harmful residues. This ozonic method is not only efficient but also environmentally friendly compared to traditional chemical treatments. Moreover, ozonic air purifiers have become increasingly popular in households and commercial spaces. These devices work by generating ozone, which interacts with airborne pollutants, breaking them down into less harmful substances. Studies have shown that ozonic air purification can significantly reduce levels of volatile organic compounds (VOCs), allergens, and other irritants in indoor environments. This is particularly beneficial for individuals suffering from respiratory conditions, as cleaner air can alleviate symptoms and improve overall health. Despite the benefits, it is crucial to approach ozonic technologies with caution. High concentrations of ozone at ground level can be detrimental to human health, leading to respiratory issues and other complications. Therefore, regulatory bodies must establish guidelines to ensure that ozonic applications are safe and effective. Education and awareness are also essential to inform the public about the proper use and potential risks associated with ozonic products. In conclusion, the integration of ozonic technologies into our daily lives holds great promise for enhancing environmental quality and public health. By investing in research and development, we can unlock the full potential of ozone as a powerful tool for sustainability. As we navigate the challenges of the 21st century, embracing ozonic solutions may very well be a key factor in achieving a cleaner, healthier future for generations to come.
近年来,可持续发展的概念在全球范围内获得了显著关注。随着我们面临气候变化和环境恶化的挑战,探索能够帮助我们减轻这些问题的解决方案变得越来越重要。其中一种解决方案是使用ozonic技术,这些技术利用臭氧的自然属性来净化空气和水,以及对抗有害污染物。理解ozonic创新的作用可以引导我们走向一个更健康的星球。臭氧是一种由三个氧原子组成的分子,存在于地球的平流层中,在那里形成保护层,吸收大部分阳光中有害的紫外线辐射。然而,在地面上,臭氧可能是一种有害的污染物。臭氧的这种双重性质既带来了机遇,也带来了挑战。当被正确利用时,ozonic技术可以提供改善空气质量和确保安全饮用水的有效解决方案。例如,臭氧广泛用于水处理设施,通过杀死细菌和病毒来消毒水,而不会留下有害残留物。这种ozonic方法不仅高效,而且与传统化学处理相比,更加环保。此外,ozonic空气净化器在家庭和商业空间中变得越来越受欢迎。这些设备通过产生臭氧来工作,臭氧与空气中的污染物相互作用,将其分解为较少有害的物质。研究表明,ozonic空气净化可以显著降低室内环境中挥发性有机化合物(VOCs)、过敏原和其他刺激物的水平。这对于患有呼吸系统疾病的人尤为有利,因为更清洁的空气可以缓解症状,改善整体健康。尽管有好处,但必须谨慎对待ozonic技术。在地面上的高浓度臭氧可能对人类健康有害,导致呼吸问题和其他并发症。因此,监管机构必须建立指导方针,以确保ozonic应用是安全和有效的。教育和意识也是至关重要的,以告知公众有关ozonic产品的正确使用和潜在风险。总之,将ozonic技术融入我们的日常生活中,对于提高环境质量和公众健康具有巨大潜力。通过投资研究和开发,我们可以释放臭氧作为可持续发展强大工具的全部潜力。在我们应对21世纪的挑战时,拥抱ozonic解决方案可能是实现清洁、健康未来的关键因素。
