臭氧:既有成熟的,也有新的

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Barry L. Loeb
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引用次数: 0

摘要

有人说,臭氧现在是一项成熟的技术。这种印象很可能是基于臭氧用于饮用水净化的成熟应用。臭氧在改善味道和气味方面非常有效,有助于消除三卤甲烷的形成,提供消毒和帮助过滤性能。50多年来,臭氧一直被用于大城市的饮用水消毒。这绝对是成熟的技术。然而,即使在饮用水处理方面,臭氧也有了新的发展,特别是在考虑臭氧传质时。历史上,水处理厂使用多孔板扩散器,许多工厂今天仍在使用。为了节省空间、降低资金、操作和维护成本,开发了侧流文丘里喷射器(svi),将臭氧引入水中。在过去的几年里,利用计算流体动力学对该工艺进行了优化,以帮助确定特定工艺的最佳喷射喷嘴位置。今天,很大比例的新饮用水正在使用svi。另一个显著的进步是使用静态混合器来改善臭氧的溶解。许多人还记得配备了精密空气干燥系统的老式空气臭氧发生器。它们是臭氧工业最初的主力发生器。此后,工程师和科学家开发了新的功率转换技术和专为氧气原料气量身定制的电介质,从而大大提高了效率并减少了空间。我们继续看到在臭氧发生器性能和使用非常可靠的高效功率转换设备的增量改进。科学家们现在正在演示如何使用氙准分子以经济的功耗产生高浓度臭氧。在臭氧的早期,科学家们发现了高级氧化,臭氧与过氧化氢结合形成自由基,可以迅速氧化难处理的污染物。这导致了催化臭氧化的概念,臭氧与固体催化剂结合可以提供类似的好处。这项新技术正在进行大量研究,可能很快就会商业化。臭氧在20世纪80年代被考虑用于废水处理,但由于运营成本和可能的误用而不再受欢迎。今天,人们强调水的再利用——回收废水作为饮用水。臭氧与生物过滤相结合已被发现是实现这一目标的一种新的有效方法,特别是在反渗透/超滤装置不能有效处理浓缩物的地区。1997年,FDA批准臭氧为食品中的GRAS。2001年,臭氧被批准作为与食品直接接触的抗菌添加剂。关于如何应用这项新批准的技术的研究开始认真,并继续到今天,臭氧在新食品上的适用性进行了测试。OS&E在2022年初出版了一期关于臭氧用于食品保鲜的特刊。最新进展之一是臭氧可以成为对抗covid - 19的有效工具。臭氧是一种非常有效的表面消毒剂,可有效灭活COVID病毒。表面可以暴露在臭氧气体中或喷洒含有臭氧的水。臭氧:科学与工程(OS&E)发表了几篇关于COVID及其灭活的文章。是的,臭氧确实已经存在很多年了,但技术也在不断进步。OS&E一直是并将继续是强调这些新技术和改进技术研究的首要期刊。你们成为国际臭氧协会(IOA)的成员,确保IOA能够继续履行这一使命。感谢您作为IOA成员的支持。今天臭氧有很多“新”,我们希望这项技术能保持“新”。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ozone: Both Mature and New
There are those who state that ozone is now a mature technology. This impression is most likely based on the well-established use of ozone for drinking water purification. Ozone is very effective in improving taste and odor, helping to eliminate the formation of trihalomethanes, provide disinfection and help filtration performance. Ozone has been used for disinfection of drinking water for large municipalities for more than 50 years. This is definitely mature technology. However, even with drinking water treatment, there have been new developments with ozone, particularly when considering ozone mass transfer. Historically water treatment plants used porous plate diffusers and many still do today. In the interest of saving space and reducing capital, operational and maintenance costs, sidestream venturi injectors (SVIs) have been developed to introduce ozone into water. Over the past several years this process has been optimized using computational fluid dynamics to help in determine the optimum injection nozzle locations for a particular process. Today, a large percentage of new drinking waters are using SVIs. Another significant advance has been the use of static mixers to improve the ozone dissolution. Many remember the old air-fed ozone generators equipped with elaborate air-drying systems. These were the original workhorse generators of the ozone industry. Engineers and scientists have since developed new power conversion technologies and dielectrics tailored to oxygen feed gas resulting in considerable improvement in efficiency and reduction of space. We continue to see incremental improvement in ozone generator performance and the use of very reliable efficient power conversion equipment. Scientists are now demonstrating how a Xenon Excimer can be used to produce very high concentration ozone at an economical power consumption. In the early days of ozone, scientists discovered advanced oxidation where ozone combined with hydrogen peroxide formed free radicals which could quickly oxidize difficult contaminants. This led to the concept of catalytic ozonation where ozone combined with a solid catalyst could provide a similar benefit. This new technology is being heavily researched and may soon lead to commercial processes. Ozone was considered and used for wastewater treatment in the 1980s but fell out of favor due to operating costs and possibly misapplication. Today, there is emphasis on water reuse – reclaiming wastewater for use as potable water. Ozone combined with biological filtration has been found to be an newly effective process to accomplish this, particularly in areas where concentrate from reverse osmosis/ultrafiltration plants cannot be effectively disposed. IN 1997 the FDA approved ozone as GRAS for foods. In 2001 ozone was approved as an antimicrobial additive for direct contact with foods. Research on how to apply this newly approved technology began in earnest and continues today and ozone is tested on new food products for its applicability. OS&E published a special issue in early 2022 on the use of ozone for food preservation. One of the newest developments is the demonstration that ozone can be an effective tool in fighting COVID19. Ozone is a very effective surface sanitizer and is effective in inactivation of the COVID virus. Surfaces can be exposed to an ozone gas or sprayed with water containing ozone. Ozone: Science & Engineering (OS&E) has published several articles on COVID and its inactivation. Yes, it is true that ozone has been around for many years but it also true that the technology continues to get better. OS&E has been and continues to be the premier journal to highlight research on these new and improved technologies. Your membership to the International Ozone Association (IOA) ensures that the IOA can continue this mission. Thank you for your support as an IOA member. There’s a lot of “new” in ozone today and we expect for the technology to stay “new.”
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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