Your search keyword '"Ozone"' showing total 112,656 results

1. Synergistic effects of copper and oxygen vacancies in enhancing the efficacy of partially crystalline CuMnxOy catalyst for ozone decomposition.

Author

Song, Yuna, Shin, Min Jae, Kwon, Byung Chan, So, Jungseob, Kim, Young Jin, Kang, Dohyung, Park, No-Kuk, and Kim, Minkyu

Subjects

*OZONE, *COPPER, *CATALYSTS, *OXYGEN, *CATALYST synthesis

Abstract

To tackle the challenge of ground-level ozone pollution, this study proposed a potential catalytic design approach for ozone decomposition using Cu–Mn bimetallic oxide. This approach is grounded in an understanding of the intrinsic reactivity for catalyst and incorporates a novel potassium-driven low-temperature oxidation process for catalyst synthesis. The research highlights the creation of a highly reactive Cu–Mn oxide phase with extensive defect coverage, leading to significantly increased reaction rates. It also identifies the MnO2(100) facet as a crucial active phase, where oxygen vacancies simultaneously enhance O3 adsorption and decomposition, albeit with a concurrent risk of O2 poisoning due to the stabilization of adsorbed O2. Crucially, the incorporation of Cu offsets the effects of oxygen vacancies, influencing conversion rates and lessening O2 poisoning. The synergistic interplay between Cu and oxygen vacancies elevates the performance of the defect-rich Cu–Mn oxide catalyst. By combining computational and experimental methods, this study not only advances the understanding of the Cu–Mn oxide system for ozone decomposition but also contributes valuable insights into developing more efficient catalysts to mitigate ozone pollution. [ABSTRACT FROM AUTHOR]

Published

2024

2. Ozone Therapy for a Soccer Player With Osteitis Pubis: A Case Report.

Author

Demir Benli, Merve and Arslan, Beyza

Subjects

*GROIN injuries, *CONSERVATIVE treatment, *SPORTS medicine, *GROIN pain, *OVERUSE injuries, *OSTEITIS, *TREATMENT effectiveness, *DISEASE remission, *INJECTIONS, *SPORTS re-entry, *AMATEUR athletes, *OZONE, *SPORTS events, *SOCCER injuries, *OZONE therapy, PUBIC symphysis injuries

Abstract

Context: Osteitis pubis (OP), which occurs as a result of excessive use of the symphysis pubis and parasymphysis bones, is more common in long-distance runners and kicking athletes, especially football players. Due to the poor results of commonly used treatments for OP, there is a need for investigation of more effective treatments, such as ozone therapy. Ozone therapy is used to treat a variety of diseases, including musculoskeletal conditions. Case Presentation: A 30-year-old amateur soccer player diagnosed with OP received conservative treatment with traditional physiotherapy and analgesic medications. After 6 months and no resolution of symptoms, the patient presented to the sports medicine outpatient clinic seeking alternative therapy options. Management and Outcomes: The patient received ozone injections in 3 sessions administered at 10-day intervals. At 1, 3, 6 and 12 months after the treatment, the patient's complaints and pain levels were re-evaluated and examined. The patient was able to return to competition at the same level after the first injection. No recurrence was revealed at a minimum of 12 months of follow-up. Conclusion: In this article, we present a case in which OP was successfully treated with ozone injection. [ABSTRACT FROM AUTHOR]

Published

2024

3. Ozonolysis of Terpene Flavor Additives in Vaping Emissions: Elevated Production of Reactive Oxygen Species and Oxidative Stress.

Author

Woo, Wonsik, Tian, Linhui, Lum, Michael, Canchola, Alexa, Chen, Kunpeng, and Lin, Ying-Hsuan

Subjects

Ozone, Oxidative Stress, Reactive Oxygen Species, Humans, Flavoring Agents, Vaping, Terpenes, Electronic Nicotine Delivery Systems, Aerosols

Abstract

The production of e-cigarette aerosols through vaping processes is known to cause the formation of various free radicals and reactive oxygen species (ROS). Despite the well-known oxidative potential and cytotoxicity of fresh vaping emissions, the effects of chemical aging on exhaled vaping aerosols by indoor atmospheric oxidants are yet to be elucidated. Terpenes are commonly found in e-liquids as flavor additives. In the presence of indoor ozone (O3), e-cigarette aerosols that contain terpene flavorings can undergo chemical transformations, further producing ROS and reactive carbonyl species. Here, we simulated the aging process of the e-cigarette emissions in a 2 m3 FEP film chamber with 100 ppbv of O3 exposure for an hour. The aged vaping aerosols, along with fresh aerosols, were collected to detect the presence of ROS. The aged particles exhibited 2- to 11-fold greater oxidative potential, and further analysis showed that these particles formed a greater number of radicals in aqueous conditions. The aging process induced the formation of various alkyl hydroperoxides (ROOH), and through iodometric quantification, we saw that our aged vaping particles contained significantly greater amounts of these hydroperoxides than their fresh counterparts. Bronchial epithelial cells exposed to aged vaping aerosols exhibited an upregulation of the oxidative stress genes, HMOX-1 and GSTP1, indicating the potential for inhalation toxicity. This work highlights the indirect danger of vaping in environments with high ground-level O3, which can chemically transform e-cigarette aerosols into new particles that can induce greater oxidative damage than fresh e-cigarette aerosols. Given that the toxicological characteristics of e-cigarettes are mainly associated with the inhalation of fresh aerosols in current studies, our work may provide a perspective that characterizes vaping exposure under secondhand or thirdhand conditions as a significant health risk.

Published

2024

4. Multi-hazard Event: Interconnected Occurrence of High Ozone, PM10, High Temperature, and Desert Dust Intrusion

Author

Kirova, Hristina, Stoycheva, Anastasiya, Georgieva, Emilia, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Dobrinkova, Nina, editor, and Fidanova, Stefka, editor

Published

2025

5. Highly efficient removal of ozone on amorphous manganese oxides modified by alkali metals.

Author

Wang, Aijie, Zhao, Hong, Wu, Yu, Zhang, Qiuyan, Jian, Hongwei, and Han, Chong

Subjects

*METALLIC glasses, *MANGANESE oxides, *CATALYTIC activity, *OZONE, *FOURIER transforms, *ALKALI metals

Abstract

Low stability deriving from the accumulation of moisture and intermediates represents the major challenge for practical applications of manganese oxides (MnO x) for ozone elimination. Here, Li+, Na+ and K+ were successfully introduced into the channel framework of amorphous MnO x to improve its stability through a simple post-treatment method. Alkali metal modification can promote the removal of ozone by amorphous MnO x , and Na-MnO x exhibited superior catalytic activity and remarkable stability in water-resistance, cycling and long-term tests. The Na introduction facilitated the formation of oxygen vacancies, and improved low-temperature reducibility and lattice oxygen mobility. The mechanism of ozone decomposition on amorphous MnO x and Na-MnO x catalysts was deeply investigated by in situ diffuse reflectance infrared Fourier transform spectra (in-situ DRIFTS). The Na addition strengthened the hydrophobicity of oxygen vacancies, but also greatly boosted the desorption of intermediate oxygen species and the ozone decomposition cycle. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

6. Short‐term ozone exposure and cancer mortality in Brazil: A nationwide case‐crossover study.

Author

Yu, Pei, Xu, Rongbin, Huang, Wenzhong, Yang, Zhengyu, Coelho, Micheline S. Z. S., Saldiva, Paulo H. N., Wen, Bo, Wu, Yao, Ye, Tingting, Zhang, Yiwen, Sun, Haitong Z., Abramson, Michael J., Li, Shanshan, and Guo, Yuming

Abstract

Exposure to ambient ozone (O3) is linked to increased mortality risks from various diseases, but epidemiological investigations delving into its potential implications for cancer mortality are limited. We aimed to examine the association between short‐term O3 exposure and site‐specific cancer mortality and investigate vulnerable subgroups in Brazil. In total 3,459,826 cancer death records from 5570 Brazilian municipalities between 2000 and 2019, were included. Municipal average daily O3 concentration was calculated from a global estimation at 0.25°×0.25° spatial resolution. The time‐stratified case‐crossover design was applied to assess the O3‐cancer mortality association. Subgroup analyses by age, sex, season, time‐period, region, urban hierarchy, climate classification, quantiles of GDP per capita and illiteracy rates were performed. A linear and non‐threshold exposure‐response relationship was observed for short‐term exposure to O3 with cancer mortality, with a 1.00% (95% CI: 0.79%–1.20%) increase in all‐cancer mortality risks for each 10‐μg/m3 increment of three‐day average O3. Kidney cancer was most strongly with O3 exposure, followed by cancers of the prostate, stomach, breast, lymphoma, brain and lung. The associated cancer risks were relatively higher in the warm season and in southern Brazil, with a decreasing trend over time. When restricting O3 concentration to the national minimum value during 2000–2019, a total of 147,074 (116,690–177,451) cancer deaths could be avoided in Brazil, which included 17,836 (7014–28,653) lung cancer deaths. Notably, these associations persisted despite observed adaptation within the Brazilian population, highlighting the need for a focus on incorporating specific measures to mitigate O3 exposure into cancer care recommendations. [ABSTRACT FROM AUTHOR]

Published

2024

7. Ozone-loaded bacterial cellulose hydrogel: a sustainable antimicrobial solution for stone cleaning.

Author

Sonaglia, Erica, Schifano, Emily, Augello, Simone, Sharbaf, Mohammad, Marra, Fabrizio, Montanari, Arianna, Dini, Luciana, Sarto, Maria Sabrina, Uccelletti, Daniela, and Santarelli, Maria Laura

Subjects

FIELD emission electron microscopy, BACTERIAL inactivation, FUNGAL spores, BACTERIAL spores, HYDROGELS

Abstract

The use of biocide-loaded hydrogels has recently been exploited for cleaning the biological attacks of cultural heritage and architectural stone materials. However, considering the drawbacks of traditional biocides, and the high costs of synthetic polymers, growing research for innovative and sustainable solutions are taking place. The aim of this work is to explore a bacterial cellulose (BC) hydrogel functionalized with ozone as a renewable, biodegradable, and easy-to-use antimicrobial remedy for stone biodeterioration. The BC microstructure was characterized by Field Emission-Scanning Electron Microscopy observation and high crystallinity was detected by X-ray diffraction analysis. Ozonated BC (OBC) hydrogels were tested against selected biodeteriogenic microorganisms in water suspension abolishing their viability, with its complete suppression after a 10-min and a 24-h treatment with OBC, for bacterial and fungal spores, respectively. Furthermore, the OBC was assessed on contaminated marble, brick, and biocalcarenitic stone specimens for simulating in situ conditions. A 100% reduction of microbial viability after a 24-h treatment was obtained. Successively, the shelf-life of the hydrogel and the antimicrobial activity were also evaluated after 30 days, demonstrating a subsequent cleaning efficiency along time. This research highlights the potential of the new ozonated BC hydrogel as a green and highly effective antimicrobial treatment, with advantages in sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

8. Mechanisms of ozone-induced neurotoxicity in the development and progression of dementia: a brief review.

Author

Marin-Castañeda, Luis A., Gonzalez-Garibay, Guillermo, Garcia-Quintana, Isabella, Pacheco-Aispuro, Gerónimo, and Rubio, Carmen

Subjects

ALZHEIMER'S disease risk factors, DEMENTIA risk factors, DEMENTIA prevention, TREATMENT of dementia, AIR pollution, SYNDROMES, RISK assessment, DISEASE exacerbation, ENVIRONMENTAL health, NEUROTOXICOLOGY, ALZHEIMER'S disease, BLOOD-brain barrier, NEUROINFLAMMATION, OXIDATIVE stress, REACTIVE oxygen species, LIPID peroxidation (Biology), ENVIRONMENTAL exposure, OZONE, MITOCHONDRIAL pathology, DEMENTIA, DISEASE progression, BIOMARKERS, DISEASE risk factors

Abstract

Dementia encompasses a spectrum of neurodegenerative disorders significantly impacting global health, with environmental factors increasingly recognized as crucial in their etiology. Among these, ozone, has been identified as a potential exacerbator of neurodegenerative processes, particularly in Alzheimer's disease (AD). Ozone exposure induces the production of reactive oxygen species (ROS), which penetrate the BBB, leading to oxidative damage in neuronal cells. This oxidative stress is closely linked with mitochondrial dysfunction and lipid peroxidation, processes that are foundational to the pathology observed in dementia, such as neuronal death and protein aggregation. Furthermore, ozone triggers chronic neuroinflammation, exacerbating these neurodegenerative processes and perpetuating a cycle of CNS damage. Recent studies highlight the role of peripheral biomarkers like High Mobility Group Box 1 (HMGB1) and Triggering Receptor Expressed on Myeloid cells 2 (TREM2) in mediating ozone's effects. Disruption of these and other identified proteins by ozone exposure impairs microglial function and response to amyloid plaques, suggesting a novel pathway through which ozone may influence AD pathology via immune dysregulation. This review discusses the concept of a bidirectional lung-brain axis, illustrating that systemic responses to air pollutants like ozone may reflect and contribute to neurodegenerative processes in the CNS. By delineating these mechanisms, we emphasize the critical need for integrating environmental health management into strategies for the prevention and treatment of dementia. [ABSTRACT FROM AUTHOR]

Published

2024

9. Ozonation as an emerging technique for inactivating microorganisms and mitigating pesticides in apple juice.

Author

Evkuran, Tugce and Karaca, Hakan

Subjects

*PESTICIDE residues in food, *PESTICIDE pollution, *MICROBIAL inactivation, *AEROBIC bacteria, *APPLE juice, *DIMETHOATE, *COLIFORMS

Abstract

Microorganisms and pesticide residues are among the major health concerns associated with food products. Although ozone (O3) is currently being employed in various applications in apple processing, there are few studies investigating the effects of O3 treatments on microorganisms and pesticides in apple juice. The purpose of this study was to investigate the effects of O3 treatment on microorganisms, pesticide residues, and physicochemical properties of apple juice and to compare with that of classical pasteurization. O3 was as effective as pasteurization against E. coli and coliform bacteria; the counts of these microorganisms were below the detectable level after a treatment for 15 min. O3 was also effective in reducing the counts of total aerobic mesophilic bacteria and yeast-mold, but longer treatments were required for total inactivation. All the pesticides investigated were degraded by O3, but at different rates. Reduction rates were quite high (75–100%) for methoxyfenozide, dimethoate, and pyrimethanil, however, acetamiprid and imidacloprid were degraded by only 7.1% and 14.5%, respectively. O3 treatment caused drastic decreases in color and turbidity values, total phenolic content, and antioxidant activity of apple juice. Results revealed that the use of ozone in juice processing has potential as a technological solution to product contamination problem. [ABSTRACT FROM AUTHOR]

Published

2024

10. Ozone stress-induced DNA methylation variations and their transgenerational inheritance in foxtail millet.

Author

Wang, Long, Liu, Yang, Song, Xiaohan, Wang, Shiji, Zhang, Meichun, Lu, Jiayi, Xu, Sheng, and Wang, Hongyan

Subjects

FOXTAIL millet, DNA methylation, PLANT adaptation, CROP growth, CROP yields

Abstract

Elevated near-surface ozone (O3) concentrations have surpassed the tolerance limits of plants, significantly impacting crop growth and yield. To mitigate ozone pollution, plants must evolve a rapid and effective defense mechanism to alleviate ozone-induced damage. DNA methylation, as one of the most crucial epigenetic modifications, plays a pivotal role in maintaining gene stability, regulating gene expression, and enhancing plant resilience to environmental stressors. However, the epigenetic response of plants to O3 stress, particularly DNA methylation variations and their intergenerational transmission, remains poorly understood. This study aims to explore the epigenetic mechanisms underlying plant responses to ozone stress across generations and to identify potential epigenetic modification sites or genes crucial in response to ozone stress. Using Open Top Chambers (OTCs), we simulated ozone conditions and subjected foxtail millet to continuous ozone stress at 200 nmol mol-1 for two consecutive generations (S0 and S1). Results revealed that under high-concentration ozone stress, foxtail millet leaves exhibited symptoms ranging from yellowing and curling to desiccation, but the damage in the S1 generation was not more severe than that in the S0 generation. Methylation Sensitive Amplified Polymorphism (MSAP) analysis of the two generations indicated that ozone stress-induced methylation variations ranging from 10.82% to 13.59%, with demethylation events ranged from 0.52% to 5.58%, while hypermethylation occurred between 0.35% and 2.76%. Reproductive growth stages were more sensitive to ozone than vegetative stages. Notably, the S1 generation exhibited widespread demethylation variations, primarily at CNG sites, compared to S0 under similar stress conditions. The inheritance pattern between S0 and S1 generations was mainly of the A-A-B-A type. By recovering and sequencing methylation variant bands, we identified six stress-related differential amplification sequences, implicating these variants in various biological processes. These findings underscore the potential significance of DNA methylation variations as a critical mechanism in plants' response to ozone stress, providing theoretical insights and references for a comprehensive understanding of plant adaptation mechanisms to ozone stress and the epigenetic role of DNA methylation in abiotic stress regulation. [ABSTRACT FROM AUTHOR]

Published

2024

11. Investigating the potency of ethylenediurea (EDU) in alleviating the affliction of ambient ozone in heat labile tomato cultivars (Solanum lycopersicum L.).

Author

Gupta, Akanksha, Agrawal, Shashi Bhushan, and Agrawal, Madhoolika

Subjects

PHOTOSYNTHETIC pigments, REACTIVE oxygen species, TROPICAL conditions, PHOTOSYNTHETIC rates, CULTIVARS, TOMATOES

Abstract

Tomato is the second most valuable vegetable crop, and its susceptibility to tropospheric ozone (O3) varies on the cultivar. Eight tomato cultivars with documented O3 sensitivity were reevaluated using ethylenediurea (400 ppm EDU) to determine the effectiveness of EDU in assessing O3 sensitivity under heavily O3-polluted tropical conditions. EDU helped in amending the growth, photosynthetic pigments, photosynthetic rate, stomatal conductance, and yield characteristics in the tomato cultivars. EDU reduced the lipid peroxidation and reactive oxygen species content, while enzymatic and non-enzymatic antioxidant responses differed across cultivars. The cultivar Superbug and Sel-7 (O3 susceptible) performed better by employing more biomass and yield and exhibiting more potent antioxidative defense machinery mainly non-enzymatic antioxidants after EDU treatment. The higher value of total antioxidative potential (TAP) in O3 susceptible cultivars suggested the adaptive resilience through EDU application against O3 stress. EDU application greatly enhanced the photosynthetic rate in O3 susceptible cultivars by increasing the stomatal conductance. Hence, both biophysical and biochemical responses were involved in protection against O3 provided by EDU. Kashi chayan and VRT02 (O3 tolerant) cultivars showed least response to EDU, due to their efficient inherent mechanisms in alleviating O3 stress. Thus, EDU may be used as an efficient biomonitoring tool against O3-sensitive cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

12. Efficacy of ozone versus mesenchymal stem cell-derived microvesicles in ameliorating testicular changes after hypothyroidism in adult albino rats: a histological and immunohistochemical study.

Author

Gawish, Magdy F., Abd EL-Baset, Samia A., Shalabi, Salma S., and Ibrahem, Nahla E.

Abstract

This study was performed to: detect the histological, immunohistochemical, and biochemical alterations that may occur in the testes of adult rats in induced hypothyroidism. And to investigate which one, ozone or MSCs-MVs have better therapeutic effect on testicular changes after hypothyroidism. Eighty-four male adult rats were separated into: control group, hypothyroidism group: rats will be given carbimazole for 30 days, ozone group: rats treated as hypothyroidism group then will be injected with ozone intraperitoneal for 7 days. MSC-MVs group: rats treated as hypothyroidism group then will be injected with a single intravenous dose MSC-MVs. Specimens of testes were handled for light, electron microscope, and immunohistochemical of vimentin and S100. Biochemical analysis for; MDA and TNFα; serum testosterone, TSH, T3, and T4 was done, also, sperm count and morphology assay. Morphometric and statistical analysis were performed. Hypothyroidism group showed disorganized seminiferous tubules. A noticeable gap was between the basement membrane and the germinal epithelium. Wide interstitium had congested vessels and acidophilic homogenous material. Vacuolated germinal epithelium and few germ cells had dark nuclei with noticeable separation of between the basement membrane and the germinal epithelium. Ozone and MSCs-MVs induced improvement in all the previous parameters and restoration of spermatogenesis. In Conclusion MSCs-MVs has better ameliorative effect than ozone on hypothyroidism-exposed testes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Effect of ozone gas exposure on drain current of solution-processed IGZO-TFT.

Author

Sasajima, Hiroharu, Morimoto, Takaaki, Fukuda, Nobuko, and Ishii, Keisuke

Abstract

The drain current (ID) of indium gallium zinc oxide thin-film transistors (IGZO-TFTs), fabricated by spin coating, decreases even when they are exposed to ozone gas at a concentration equal to or lower than 5 ppm. The ID reduction rate increases when the film thickness and the firing temperature in the spin-coating process of IGZO layer decreases. In these samples, the peak intensity ratio of the O 1s X-ray photoelectron spectroscopy (XPS) peak due to the OH group and the intensity of the infrared (IR) absorption band at 3000 cm−1–3500 cm−1 due to the OH stretching vibration increase. This indicates that OH groups within the IGZO film contribute to the ozone reaction mechanism. These findings are significant for developing high-sensitivity ozone sensors using a simpler process. [ABSTRACT FROM AUTHOR]

Published

2024

14. Heterogeneous Catalytic Ozonation of Pharmaceuticals: Optimization of the Process by Response Surface Methodology.

Author

Tsiarta, Nikoletta, Gernjak, Wolfgang, Cajner, Hrvoje, Matijašić, Gordana, and Ćurković, Lidija

Subjects

*RESPONSE surfaces (Statistics), *CATALYSIS, *HYDROXYL group, *CATALYTIC activity, *OZONE

Abstract

Batch heterogeneous catalytic ozonation experiments were performed using commercial and synthesized nanoparticles as catalysts in aqueous ozone. The transferred ozone dose (TOD) ranged from 0 to 150 μM, and nanoparticles were added in concentrations between 0 and 1.5 g L−1, with all experiments conducted at 20 °C and a total volume of 240 mL. A Ce-doped TiO2 catalyst (1% molar ratio of Ce/Ti) was synthesized via the sol–gel method. Response surface methodology (RSM) was applied to identify the most significant factors affecting the removal of selected pharmaceuticals, with TOD emerging as the most critical variable. Higher TOD resulted in greater removal efficiencies. Furthermore, it was found that the commercially available metal oxides α-Al2O3, Mn2O3, TiO2, and CeO2, as well as the synthesized CeTiOx, did not increase the catalytic activity of ozone during the degradation of ibuprofen (IBF) and para-chlorobenzoic acid (pCBA). Carbamazepine (CBZ) and diclofenac (DCF) are compounds susceptible to ozone oxidation, thus their complete degradation at 150 μM transferred ozone dose was attained. The limited catalytic effect was attributed to the rapid consumption of ozone within the first minute of reaction, as well as the saturation of catalyst active sites by water molecules, which inhibited effective ozone adsorption and subsequent hydroxyl radical generation (●OH). [ABSTRACT FROM AUTHOR]

Published

2024

15. Characteristics and Source Analysis of Ozone Pollution in Tianjin from 2013 to 2022.

Author

Dong, Shuo, Ma, Pengfei, Yang, Xingchuan, Luo, Nana, Chen, Linhan, Wang, Lili, Song, Hanyang, Zhao, Shaohua, and Zhao, Wenji

Subjects

*SPRING, *AUTUMN, *OZONE, *POLLUTION, *SUMMER

Abstract

This study has analyzed ozone pollution in Tianjin from 2013 to 2022, focusing on the relationships between ozone distribution, meteorological conditions, and precursor substances. A method for identifying high-value areas of ozone precursors using the Ozone Sensitivity Factor (FNR) has been introduced. Results show that the average ozone concentration in Tianjin has been 100.608 µg/m3, with an annual growth rate of 2.84 µg·m⁻3·yr⁻¹. Tianjin has ranked among the top provinces and urban agglomerations in China for both ozone concentration and growth rate. Ozone levels have peaked in summer, followed by spring, autumn, and winter, while the growth rate has been highest in spring. This indicates that ozone pollution extends from summer into spring and autumn. An analysis of six ozone pollution events reveals significant regional transmission impacts from northern Hebei and Inner Mongolia, contributing over 30%, with additional significant contributions from southern and southwestern Hebei and western Shandong. In terms of controlling ozone precursors, high-HCHO-value areas have been identified. The correlation between areas of high HCHO values and ground-level ozone concentrations was 0.56339 during the ozone season and 0.2214 during the non-ozone season, both of which improved identification accuracy to varying degrees, suggesting that targeting precursor emissions in these areas could enhance pollution mitigation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

16. Cryptosporidium parvum inactivation from short durations of treatment with ozonated water produced by an electrolytic generation system.

Author

Matsubayashi, Makoto, Haraguchi, Asako, Morisaki, Manami, Ikadai, Hiromi, Teramoto, Isao, Kido, Yasutoshi, and Kaneko, Akira

Abstract

Cryptosporidium is a waterborne pathogen that causes diarrhea in vertebrates and humans (mainly C. hominis and C. parvum). Ozone (O3) is a powerful disinfectant due to its high oxidative characteristics, and it is used to inactivate microorganisms in drinking water. As an alternative to the gas dissolution system for producing ozone from oxygen, a simpler electrolytic ozone generation system has recently been developed. In the present study, the efficacy of the ozonated water produced by this system in inactivating Cryptosporidium parasites (C. parvum) was evaluated at different current intensities (which change the ozone concentrations) and short exposure times (15–60 s). Oocyst viability and integrity was assessed using vital dye staining, excystation assays, and scanning electron microscopy (SEM). SEM data revealed that oocyst walls were damaged by exposure to ozone molecules even at low concentrations (< 0.01 mg/l for 1 min) (current intensity 0.2 A), but that the excystation assay could not differentiate between deformed oocysts (dead) and partially excysted oocysts (alive). Exposure to ozonated water produced with a low current intensity (0.3 A) for 15 and 120 s resulted in the inactivation of 96.2% (CT value < 0.003) and 99.4% (CT value < 0.020) of the oocysts, respectively. Thus, it was estimated that a CT value more than 0.020 was required to inactivate > 99% of the C. parvum oocysts. These results suggested that the electrolytic ozone generation system may be more effective than gas dissolution ozone generation; however, further studies using additional approaches are needed to obtain clearer evidence. [ABSTRACT FROM AUTHOR]

Published

2024

17. Evaluation of the effects of acetic acid and ozone treatment on the quality of fresh-cut lotus root based on grey relational analysis.

Author

Zhang, Yongqing, Zhang, Dandan, Wu, Yanfang, Yang, Xiaogang, Li, Haoying, Wei, Quanzeng, Sun, Juntao, and Wang, Deguo

Subjects

*GREY relational analysis, *FOOD preservation, *VITAMIN C, *OZONE, *AMINO acids

Abstract

This study aimed to extend the storage time of fresh-cut lotus roots. A quantitative evaluation was conducted using the grey–correlation analysis method based on the variation–coefficient weight to observe the treatment of acetic acid (0, 2%, and 5%) and ozone (0, 0.3 mg/L, and 0.6 mg/L). Their effects on weight loss rate, browning degree, and the content of reducing sugar, ascorbic acid, and free amino acid were determined. Under varied treatments and storage time, the weight loss rate, browning degree, and content of nutritional components in fresh-cut lotus root differed. Result of the weighted correlation degree showed that for fresh-cut lotus root stored for more than 4 days, 0.3 mg/L ozone could be used as preservative to ensure the storage quality. These findings could provide a scientific basis for using acetic acid and ozone as preservative to extend the storage time of fresh-cut lotus root. [ABSTRACT FROM AUTHOR]

Published

2024

18. Effects of Three Emerging Non-thermal Pretreatments on Drying Kinetics, Physicochemical Quality, and Microstructure of Garlic Slices.

Author

Bai, Jun-Wen, Li, Dan-Dan, Aheto, Joshua H., Qi, Zi-Yu, Reziwanguli, Abulaiti, Cai, Jian-Rong, and Tian, Xiao-Yu

Subjects

*LOW temperature plasmas, *INDUSTRIAL capacity, *GARLIC, *OZONE, *ULTRASONIC imaging, *DRYING

Abstract

Three emerging non-thermal pretreatment methods, including cold plasma, ultrasound, and ozone water, were utilized to pretreat garlic slices before drying process. The garlic slices were then dried by hot air drying at 60 °C. The study investigated the drying kinetics, color, rehydration ratio (RR), allicin content (AC), total phenolic content (TPC), antioxidant activity, and microstructure of the garlic slices. The results showed that ultrasound and ozone water pretreatment can significantly enhance drying kinetics. In comparison to untreated samples, garlic slices pretreated with ultrasound for 20 min exhibited a 55.96% increase in moisture effective diffusivity (Deff). Garlic pretreated with ultrasound exhibited the best rehydration properties, yet it retained the lowest levels of allicin content and antioxidant activity. Encouragingly, samples treated with ozone water demonstrated the best nutritional quality properties, with approximately 7.85% higher AC, 25.90% higher TPC, and 12.31% higher antioxidant activity compared to untreated samples. The study also emphasizes notable alterations in the microstructure of garlic resulting from various pretreatments. This research provides valuable insights into optimizing garlic drying processes using emerging non-thermal pretreatment techniques, showcasing their potential for industrial applications and quality enhancement. [ABSTRACT FROM AUTHOR]

Published

2024

19. Exploring the potential of germination and ozone treatment to improve the nutritional profile and functional properties of amaranth grains.

Author

Awasthi, Tamanna and Singh, Narpinder

Subjects

*AMINO acid analysis, *ESSENTIAL amino acids, *PHENOLIC acids, *FLAVONOIDS, *OZONE

Abstract

Summary: This study investigates the impact of germination and ozone treatment on the nutritional and bioactive properties of grains of two amaranth varieties. The study focused on the proximate composition, antioxidant activity, phenolic and flavonoid content, and amino acid profile of untreated and treated grains of two amaranth varieties. Germination significantly increased the protein content by 18.5%, crude fibre by 25.7%, and total phenolic content by 34.2% compared to the control. Ozone treatment further enhanced these properties, with a notable increase in antioxidant activity by 41.8% and total flavonoid content by 29.6%. The amino acid profile analysis revealed a significant rise in essential amino acids, particularly lysine, which increased by 22.4% following the combined treatment. These findings suggested that the combined application of germination and ozone treatment significantly enhances the nutritional quality and bioactive properties of amaranth, making it a superior ingredient for functional food products. The results indicated that these processes could be effectively utilised to boost the health benefits of amaranth, contributing to the development of nutrient‐rich food products. [ABSTRACT FROM AUTHOR]

Published

2024

20. A novel insight of degradation ibuprofen in aqueous by catalytic ozonation with supported catalyst: Supports effect on ozone mass transfer.

Author

Huangfu, Zizheng, Ju, Wei, Jia, Yunhan, Ren, Ruijun, Wang, Zhenbei, Li, Chen, Shang, Xiaomeng, Li, Yujie, Liu, Hongnan, Wang, Yu, Zheng, Hao, Qi, Fei, Ikhlaq, Amir, Kumirska, Jolanta, and Siedlecka, Ewa Maria

Subjects

*MASS transfer, *CATALYST supports, *OZONE, *OZONIZATION, *MASS transfer coefficients, *BUBBLE column reactors, *CATALYTIC activity

Abstract

• CuMn 2 O 4 @LR and MnO 2 –Co 3 O 4 @LR showed good application potential and stability. • The above granular catalyst enhanced ozone mass transfer in catalytic ozonation. • CuMn 2 O 4 @LR and MnO 2 –Co 3 O 4 @LR catalyzed ozone decomposition to more •OH, •O 2 −, H 2 O 2. • The large-size supporter is more beneficial for O 3 mass transfer than the small one. Catalytic ozonation is an effective wastewater purification process. However, the low ozone mass transfer in packed bubble columns leads to low ozone utilization efficiency (OUE), poor organic degradation performance, and high energy consumption. Therefore, there is an urgent need to develop efficient supported catalysts that can enhance mass transfer and performance. However, the reaction mechanism of the support on ozone mass transfer remains unclear, which hinders the development of catalytic ozonation applications. In this study, lava rocks (LR)-supported catalysts, specifically CuMn 2 O 4 @LR and MnO 2 Co 3 O 4 @LR, were proposed for catalytic ozonation of IBP degradation due to their superior catalytic activity, stability, and high OUE. Addition of CuMn 2 O 4 @LR or MnO 2 Co 3 O 4 @LR increased IBP removal efficiency from 85% to 91% or 88%, and reduced energy consumption from 2.86 to 2.14 kWh/m3 or 2.60 kWh/m3, respectively. This improvement was attributed to LR-supported catalysts enhancing mass transfer and promoting O 3 decomposition to generate •OH and •O 2 −, leading to IBP degradation. Furthermore, this study investigated the effects of ozone dose, supporter sizes, and catalyst components on ozone-liquid mass transfer. The results revealed that the size of the supporter influenced stacked porosity and consequently affected ozone mass transfer. Larger-sized LR (k L a= 0.172 min−1) exhibited better mass transfer compared to smaller-sized supports. Based on these findings, it was concluded that both CuMn 2 O 4 @LR and MnO 2 Co 3 O 4 @LR are potential catalysts for catalytic ozonation in residual IBP degradation of pharmaceutical wastewater, and LR showed good credibility as a catalyst supporter. Understanding the effects of supporters and active components on ozone mass transfer provides a fundamental principle for designing supported catalysts in catalytic ozonation applications. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

21. 臭氧污染和亚乙基二脲喷施对小麦根际细菌群落的影响.

Author

张浩然, 施 羽, 刘园园, 程 诚, 王 琪, 徐彦森, and 冯兆忠

Subjects

BACTERIAL communities, PLANT-soil relationships, RHIZOSPHERE, OZONE

Published

2024

22. Random Forest Spatial-Temporal and State Space Models to Assess the Impact of Bushfire-Induced Aerosol Events on Ozone Depletion in Australia.

Author

Hudson, Irene, Pedro-Suvorov, Phillip, and Kocak, Servet

Subjects

HIDDEN Markov models, OZONE layer depletion, FOREST reserves, RANDOM forest algorithms, MARKOV processes, WILDFIRES, FUEL reduction (Wildfire prevention)

Abstract

Serious concerns exist that the increasing frequency of fires may delay the recovery of ozone given increasing temperatures due to climate change. Australian bushfires from September 2019 to February 2020 were catastrophic. A random forest spatial-temporal (RF sp) analysis using satellite data to detect an association between Australian bushfires and stratosphere ozone on the local depletion of ozone in the vicinity of fires in three regions of Australia (Pacific Ocean, Victoria, NSW) has shown a significant reduction in ozone attributable to aerosols from fires. By intervention analysis, increases in aerosols in all three regions were shown to have a significant and ongoing impact 1–5 days later on reducing ozone (p < 0.0001). Intervention analysis also gave similar periods of aerosol exceedance to those found by Hidden Markov models (HMMs). HMMs established a significant and quantifiable decline in ozone due to bushfire-induced aerosols, with significant lags of 10–25 days between times of aerosol exceedance and subsequent ozone level decline in all three regions. [ABSTRACT FROM AUTHOR]

Published

2024

23. Effectiveness of Ozone Treatment and Packaging Techniques in Preserving Taiwanese Domestic Beef During Refrigerated Storage.

Author

Huang, Chao-Wei, Takeda, Shiro, Chen, Yen-Po, Cheng, Fu-Yuan, Wu, Pei-Jung, Lin, Liang-Chuan, and Liu, Yu-Tse

Subjects

VACUUM packaging, REFRIGERATED storage, FOOD quality, FOOD safety, MICROBIAL growth, BEEF quality

Abstract

This study investigates the efficacy of ozone treatment combined with different packaging methods on the preservation of Taiwanese domestically produced beef during refrigerated storage. The preservation of fresh beef is crucial for ensuring food safety and quality; we do not know whether changing the packaging method can mitigate the negative effects of ozone on meat and even enhance its positive impact. Beef samples were treated with ozone and packaged using the vacuum or PVDC-tray methods, then stored at 4 °C for 7 days. The results show that ozone treatment effectively inhibited microbial (total plate count, Salmonella, and Escherichia coli) growth (p < 0.05). Vacuum packaging maintained lower TBARS values (p < 0.05) and metmyoglobin percentages compared to PVDC-tray packaging (p < 0.05). The L* values of all treatments increased over storage time, with significant differences observed between days 0 and 7. Ozone treatment combined with vacuum packaging demonstrated promising results in inhibiting microbial growth and preserving beef quality during refrigerated storage. These findings contribute to enhancing the safety and shelf life of Taiwanese domestically produced beef, potentially benefiting both producers and consumers. [ABSTRACT FROM AUTHOR]

Published

2024

24. Long-Term Exposure to Nitrogen Dioxide and Ozone and Mortality: Update of the WHO Air Quality Guidelines Systematic Review and Meta-Analysis.

Author

Kasdagli, Maria-Iosifina, Orellano, Pablo, Pérez Velasco, Román, and Samoli, Evangelia

Subjects

CHRONIC obstructive pulmonary disease, AIR pollution, NITROGEN dioxide, RESPIRATORY infections, CEREBROVASCULAR disease

Abstract

Objectives: We performed a systematic review and meta-analysis on long-term exposure to nitrogen dioxide (NO2) and ozone (O3) with mortality, to expand evidence that informed 2021 the WHO Air Quality Guidelines and guide the Health Risks of Air Pollution in Europe project. Methods: We included cohorts investigating NO2 and O3 mortality from all-causes, respiratory diseases, chronic obstructive pulmonary disease (COPD), acute lower respiratory infections (ALRI); and NO2 mortality from circulatory, ischemic heart, cerebrovascular diseases and lung cancer. We pooled estimates by random-effects models and investigated heterogeneity. We assessed the certainty of the evidence using the Grading of Recommendations Assessment Development approach and Evaluation (GRADE). Results: We selected 83 studies for NO2 and 26 for O3 for the meta-analysis. NO2 was associated with all outcomes, except for cerebrovascular mortality. O3 was associated with respiratory mortality following annual exposure. There was high heterogeneity, partly explained by region and pollutant levels. Certainty was high for NO2 with COPD and ALRI, and annual O3 with respiratory mortality. Conclusion: An increasing body of evidence, with new results from countrywide areas and the Western Pacific, supports certainty, including new outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

25. Variations in summertime ozone in Nanjing between 2015 and 2020: roles of meteorology, radical chain length and ozone production efficiency.

Author

Li, Lin, Li, Jingyi, Qin, Momei, Xie, Xiaodong, Hu, Jianlin, and Zhang, Yuqiang

Abstract

Changes in ozone (O3) can be evaluated to inform policy effectiveness and develop reasonable emissions reduction measures. This study investigated the causes of summertime maximum daily 8-h average (MDA8) O3 variation between 2015 and 2020 in Nanjing, China, a megacity in the Yangtze River Delta (YRD) region, from the perspective of meteorological conditions and anthropogenic emissions of O3 precursors (VOCs and Nox). Compared with 2015, the observed MDA8 O3 decreased by 19.1 µg/m3 in August 2020. The indirect and indirect impacts of meteorological conditions contributed 44% of the decline, with temperature, relative humidity, and wind playing important roles in the O3 variation. The O3 drop by 10.7 µg/m3 (56% of the total decrease) may have been due to the decreases in anthropogenic emissions of VOCs and NOx by 7.8% and 11.7%, respectively. The longer hydroxyl (OH) radical chain length and higher ozone production efficiency (OPE) indicated that the reduction of anthropogenic emissions accelerated the ROx (ROx = OH + HO2 + RO2) and NOx cycles in O3 production, making O3 more sensitive to NOx. This corresponded to the O3 formation shifting from a VOC-limited regime in 2015 to a transition regime in 2020 and O3 decrease with anthropogenic emission reduction. Hence, the joint control of O3 precursor emissions can effectively mitigate O3 pollution in Nanjing. [ABSTRACT FROM AUTHOR]

Published

2024

26. Ozone disinfection of waterborne pathogens: A review of mechanisms, applications, and challenges.

Author

Cai, Yamei, Zhao, Yaqian, Wang, Cong, Yadav, Asheesh Kumar, Wei, Ting, and Kang, Peiying

Subjects

DISINFECTION by-product, PATHOGENIC microorganisms, WATER use, BODIES of water, OZONE

Abstract

Water serves as a critical vector for the transmission of pathogenic microorganisms, playing a pivotal role in the emergence and propagation of numerous diseases. Ozone (O3) disinfection technology offers promising potential for mitigating the spread of these pathogens in aquatic environments. However, previous studies have only focused on the inactivated effect of O3 on a single pathogenic microorganism, lacking a comprehensive comparative analysis of various influencing factors and different types of pathogens, while the cost-effectiveness of O3 technology has not been mentioned. This review synthesized the migration characteristics of various pathogenic microorganisms in water bodies and examined the properties, mechanisms, and influencing factors of O3 inactivation. It evaluated the efficacy of O3 against diverse pathogens, namely bacteria, viruses, protozoa, and fungi, and provided a comparative analysis of their sensitivities to O3. The formation and impact of harmful disinfection by-products (DBPs) during the O3 inactivation process were assessed, alongside an analysis of the cost-effectiveness of this method. Additionally, potential synergistic treatment processes involving O3 were proposed. Based on these findings, recommendations were made for optimizing the utilization of O3 in water inactivation in order to formulate better inactivation strategies in the post-pandemic eras. [ABSTRACT FROM AUTHOR]

Published

2024

27. Tuning FeO covalency boosts catalytic ozonation over spinel oxide for chemical industrial wastewater decontamination.

Author

Cao, Xu, Wang, Zhao‐Hua, Guo, Zhi‐Yan, Yang, Si‐Yu, Wu, Gang, Hu, Jun, Li, Wen‐Wei, and Liu, Xian‐Wei

Subjects

CHEMICAL systems, WATER purification, ACTIVATION energy, METALLIC oxides, OZONE

Abstract

Heterogeneous catalytic ozonation (HCO) emerges as a promising chemical industrial wastewater treatment solution, offering enhanced ozone utilization and reduced secondary pollutants. However, challenges in scaling HCO arise from a limited understanding of the catalytic mechanisms of metal oxides, particularly in generating active ozone sites. Here, we demonstrated the improvement of catalytic ozonation efficiency by enhancing the covalent bonding between FeO in Fe/Co spinel oxides. This alteration exploits the stronger electron‐donating capacity of Fe (II), enhancing FeOM bonds and electron enrichment at iron sites, leading to a significant reduction in the activation energy for ozone. Pilot experiments demonstrated a 75.3% COD removal efficiency and a threefold increase in ozone utilization efficiency compared to pure ozone system for chemical industrial wastewater treatment. This study not only advances our understanding of spinel oxides in ozone catalysis but also opens new avenues for practical HCO applications in water treatment. [ABSTRACT FROM AUTHOR]

Published

2024

28. Bimetallic synergistic effect of Co and Fe for the highly efficient catalytic decomposition of ozone.

Author

Liu, Wenyan, Zhu, Yu‐quan, Wang, Binxia, Lin, Wenwen, Li, Kaitao, Liu, Wendi, and Lin, Yanjun

Subjects

BIMETALLIC catalysts, LAYERED double hydroxides, HYDROXYL group, OZONE, SURFACE area

Abstract

Ground‐level ozone pollution is a major concern for human health, ecosystems, and material degradation. This article presents a Co‐ and Fe‐based bimetallic layered double hydroxide (CoFe‐LDH) catalyst for ozone decomposition. The CoFe‐LDH catalyst exhibited 100% ozone decomposition efficiency over 24 h at a reaction rate of 35.3 μmol g−1 min−1. The synergetic effects between Co and Fe regulated the valence state, increased the number of Co vacancies, and increased the specific surface area and density of the hydroxyl groups on the surface. Moreover, the two metals facilitated different dissociation steps and the desorption step became exothermic after ozone enrichment on the surface, rendering every step concurrently spontaneous, which has not been observed in previously reported ozone decomposition catalysts. This study demonstrates the potential of LDHs for ozone pollution control and offers new insights into the design of synergistic bimetallic catalysts. [ABSTRACT FROM AUTHOR]

Published

2024

29. Elucidating key factors in regulating budgets of ozone and its precursors in atmospheric boundary layer.

Author

Song, Xin, Li, Xiao-Bing, Yuan, Bin, He, Xianjun, Chen, Yubin, Wang, Sihang, Huangfu, Yibo, Peng, Yuwen, Zhang, Chunsheng, Liu, Aiming, Yang, Honglong, Liu, Chanfang, Li, Jin, and Shao, Min

Subjects

ATMOSPHERIC boundary layer, BOUNDARY layer (Aerodynamics), RADICALS (Chemistry), OZONE

Abstract

The vertical variations and key drivers of ozone and its precursors, namely NOx and VOCs, in the atmospheric boundary layer, have vital impacts on surface ozone budgets but are poorly understood so far. Using online gradient measurements from a 356 m tower, we obtained continuous vertical profiles of ozone and its precursors, which exhibited strong gradients throughout the day. In the daytime, the vertical gradients of ozone precursors are significantly regulated by reactions with OH radicals. At night, our observations confirmed more intense VOC reactions with NO3 radicals in the residual layer than in the boundary layer. Additionally, we found that residual layer entrainment could contribute to over half of the boundary-layer ozone enhancements in the morning periods. Our results underscore the importance of considering vertical changes of ozone and its precursors in the atmospheric boundary layer when developing future ozone mitigation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

30. Machine Learning‐Driven Spatiotemporal Analysis of Ozone Exposure and Health Risks in China.

Author

Ma, Chendong, Song, Jun, Ran, Maohao, Wan, Zhenglin, Guo, Yike, and Gao, Meng

Subjects

AIR quality management, ENVIRONMENTAL protection, METEOROLOGICAL research, OZONE, STROKE

Abstract

Accurate and fine‐scaled prediction of ozone concentrations across space and time, as well as the assessment of associated human risks, is crucial for protecting public health and promoting environmental conservation. This paper introduces NetGBM, an innovative machine‐learning model designed to comprehensively model ozone levels across China's diverse topography and analyze the spatiotemporal distribution of ozone and exposure. Our model focuses on daily, weekly, and monthly predictions, achieving commendable R2 ${\mathrm{R}}^{2}$ coefficients of 0.83, 0.77, and 0.79, respectively. By constructing a gridded map of ozone and incorporating both land use and meteorological features into each grid, we achieved ozone prediction at a high spatiotemporal resolution, outperforming previous research in terms of performance and scale, particularly in regions with limited monitoring stations. The results can be further improved when applied to regional research using meteorological and ozone data from regional stations. Additionally, our research revealed that temperature is the most significant factor affecting ozone concentrations across China. In health risk assessment, we retrieved a high‐resolution spatial distribution of ozone‐attributed mortality for 5‐COD and daily ozone inhalation distributions during our study period. We concluded that ozone‐attributed mortality is predominantly caused by stroke and IHD, accounting for more than 70% of the total deaths in 2021, with the highest mortality rates in developed urban areas such as the NCP and the YRD. Our experiment demonstrated the potential of NetGBM in robustly modeling ozone across China with high spatiotemporal resolution and its applicability in measuring associated health risks. Plain Language Summary: This study introduces NetGBM, an innovative machine‐learning model designed to forecast ozone levels and assess ozone‐attributed public health risks. This model is crucial for post‐pandemic air quality management, providing high‐resolution predictions that are essential for targeted health interventions and informed environmental policies. By integrating feature engineering with predictive analytics, NetGBM enhances its performance, particularly in regions with limited monitoring. This makes it a robust tool for developing sustainable environmental strategies. Key Points: We introduce NetGBM, a machine‐learning model for high spatiotemporal resolution ozone prediction across ChinaWe perform ozone inhalation and GEMM analysis, which identifies regions facing elevated health risks due to high ozone exposureThe NetGBM model has superior performance compared to prior research and performs robustly in regions with limited monitoring resources [ABSTRACT FROM AUTHOR]

Published

2024

31. Impacts of On‐Road Vehicular Emissions on U.S. Air Quality: A Comparison of Two Mobile Emission Models (MOVES and FIVE).

Author

Ma, Siqi, Tong, Daniel, Harkins, Colin, McDonald, Brian C., Wang, Chi‐Tsan, Li, Yunyao, Baek, Bok H., Woo, Jung‐Hun, and Zhang, Yang

Subjects

PARTICULATE matter, AUTOMOBILE emissions, AIR pollution, AIR quality, AIR quality management, NITROGEN oxides, EMISSION inventories

Abstract

On‐road vehicles are significant contributors to air pollution globally, particularly to nitrogen oxides (NOx) and ozone (O3). Quantifying their contribution to air quality is crucial to understanding the trends of vehicle emissions as low‐ and "zero" emission vehicles join the fleet. Modeling on‐road emissions is complex due to various factors like fleet activities, traffic patterns, and meteorological conditions. We compare on‐road emissions from two mobile models: the National Oceanic and Atmospheric Administration Fuel‐based Inventory of Vehicle Emission (FIVE) and the US Environmental Protection Agency Motor Vehicle Emission Simulator (MOVES), finding they contribute 4%–33% to volatile organic compounds (VOCs), NOx, and fine particulate matter (PM2.5) in the contiguous United States (CONUS). Using a regional chemical transport model, we assess air quality effects under different emission scenarios. Both emission data sets yield satisfactory performance, with MOVES showing lower biases in ozone (O3) and PM2.5 over CONUS, while FIVE performs better at city scales due to higher urban NOx emissions. In January, on‐road emissions increased surface O3 over western and southern US by up to 9.1%–13.1% but decreased by 2.5% over the northeastern US, while PM2.5 predictions vary across the US (−85% to 24%). In July, on‐road emissions elevate O3 and PM2.5 concentrations by 15%–20% across CONUS, except in some west coast cities. They also greatly contribute to nitrogen dioxide (NO2) by more than 80% near roads and in urban areas. This study highlights the significant impact of on‐road emissions on urban air quality and provides insights for improving air quality forecasting and management. Plain Language Summary: On‐road vehicles are major sources of air pollution worldwide, emitting harmful pollutants. It is important to quantify their contribution and document how air quality improves with more electric vehicles joining the fleet. This study compares two emission data sets produced from two mobile source emission models, FIVE and MOVES, and finds differences in major pollutants such as volatile organic compounds (VOCs), nitrogen oxides (NOx), and fine particulate matter (PM2.5) and the evaluations showed that both on‐road emissions perform well for ozone (O3) and PM2.5 predictions, meeting the performance criteria. We look into the contributions of on‐road sources by simulating air quality with and without on‐road emissions. We found that on‐road emissions increase ozone and PM2.5 levels in some regions but decrease them in others in January. In July, on‐road emissions raise both pollutants across the contiguous US, except in a few cities on the west coast. They also greatly contribute to nitrogen dioxide (NO2) levels near roads and in cities. Understanding these impacts helps us better manage air quality and reduce pollution from vehicles. Key Points: The on‐road emissions contribute to volatile organic compounds (VOCs), NOx, and PM2.5 by 4%–33% in the contiguous United States in January and July of 2019MOVES overall exhibits lower biases over CONUS while FIVE demonstrates superior O3 performance at the city scaleThe on‐road emissions increased the surface O3, NO2, and PM2.5 in July while varied impacts were observed in January [ABSTRACT FROM AUTHOR]

Published

2024

32. 基于生物脱腥的洞庭青鲫鱼汤挥发性成分解析.

Author

王伯华, 李清钦, 郭禹麟, 雷颂, and 罗玉双

Subjects

DEODORIZATION, GOLDFISH, LACTOBACILLUS plantarum, OZONE, FERMENTATION, ODORS, FOOD aroma

Abstract

Copyright of Food & Fermentation Industries is the property of Food & Fermentation Industries and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

33. Human exposure to air contaminants under the far-UVC system operation in an office: effects of lamp position and ventilation condition.

Author

Park, Seongjun and Rim, Donghyun

Subjects

*COMPUTATIONAL fluid dynamics, *AIR pollutants, *AIRBORNE infection, *AIR quality, *VENTILATION

Abstract

The far-UVC (222 nm) system has emerged as a solution for controlling airborne transmission, yet its effect on indoor air quality, particularly concerning positioning, remains understudied. In this study, we examined the impact of far-UVC lamp position on the disinfection and secondary contaminant formation in a small office. We employed a three-dimensional computational fluid dynamics (CFD) model to integrate UV intensity fields formed by different lamp positions (ceiling-mounted, wall-mounted, and stand-alone types) along with the air quality model. Our findings reveal that the ceiling-mounted type reduces human exposure to airborne pathogens by up to 80% compared to scenarios without far-UVC. For all the lamp positions, O3 concentration in the breathing zone increases by 4–6 ppb after one hour of operation. However, it should be noted that a high concentration zone (> 25 ppb) forms near the lamp when it is turned on. Moreover, ventilation plays a crucial role in determining human exposure to airborne pathogens and secondary contaminants. Increasing the ventilation rate from 0.7 h−1 to 4 h−1 reduces airborne pathogen and secondary contaminant concentrations by up to 90%. However, caution is warranted as higher ventilation rates can lead to elevated O3 indoors, especially under conditions of high outdoor O3 concentrations. [ABSTRACT FROM AUTHOR]

Published

2024

34. Evaluation of the effect of ozone olive oil and laser photobiomodulation on the tissue repair of traumatic ulcer on the rat tongue.

Author

Couto Costa, Michele Rosas, Xavier de Andrade Damasceno, Marlene, Ferreira de Souza, Maurício, Coelho Marques, Marcelo Victor, de Freitas Ferreira, Julianna, Meneses de Sousa da Silva, Fábio Luís, Alves de Brito Júnior, Anildo, Botelho Martins, Gabriela, dos Santos Vianna Néri, Júlia, and Borges de Lima Dantas, Juliana

Subjects

*LABORATORY rats, *HEMATOXYLIN & eosin staining, *INFERENTIAL statistics, *PHOTOBIOMODULATION therapy, *HEALING, *OLIVE oil

Abstract

The objective of this study was to evaluate the effect of ozonized olive oil with or without laser photobiomodulation (LPBM) on the healing process of traumatic ulcers in rat tongues. Sixty male Wistar rats underwent tongue ulceration using a six-mm diameter punch. Animals were divided into four experimental groups: control-G1, LPBM-G2, Ozonized olive oil-G3, and LPBM + Ozonized olive oil-G4. Euthanasia was performed on days three, seven, and 14. Clinical analysis of the wound size and histomorphological evaluation using hematoxylin and eosin and Sirius red staining were conducted to identify edema, inflammatory infiltrates, fibroblastic cellularity, reepithelialization, and collagen characterization. Descriptive and exploratory analyses were performed using R and inferential statistics were calculated using Fisher’s exact tests, with a significance level of 5%. G2 and G3 positively modulated the repair phases clinically (p < 0.05) and histologically, showing reepithelialization, fibroblastic population, and thick collagen fiber deposition from the 3rd day of the experiment. G4 exhibited a significant difference from G1 in the clinical parameters (p < 0.05), but did not demonstrate superiority in histomorphological terms of tissue repair. Isolated use of LPBM and ozonized olive oil improved tissue repair in rat tongues. [ABSTRACT FROM AUTHOR]

Published

2024

35. Ozone stress-induced DNA methylation variations and their transgenerational inheritance in foxtail millet.

Author

Long Wang, Yang Liu, Xiaohan Song, Shiji Wang, Meichun Zhang, Jiayi Lu, Sheng Xu, and Hongyan Wang

Subjects

FOXTAIL millet, DNA methylation, PLANT adaptation, CROP growth, CROP yields

Abstract

Elevated near-surface ozone (O3) concentrations have surpassed the tolerance limits of plants, significantly impacting crop growth and yield. To mitigate ozone pollution, plants must evolve a rapid and effective defense mechanism to alleviate ozone-induced damage. DNA methylation, as one of the most crucial epigenetic modifications, plays a pivotal role in maintaining gene stability, regulating gene expression, and enhancing plant resilience to environmental stressors. However, the epigenetic response of plants to O3 stress, particularly DNA methylation variations and their intergenerational transmission, remains poorly understood. This study aims to explore the epigenetic mechanisms underlying plant responses to ozone stress across generations and to identify potential epigenetic modification sites or genes crucial in response to ozone stress. Using Open Top Chambers (OTCs), we simulated ozone conditions and subjected foxtail millet to continuous ozone stress at 200 nmol mol-1 for two consecutive generations (S0 and S1). Results revealed that under high-concentration ozone stress, foxtail millet leaves exhibited symptoms ranging from yellowing and curling to desiccation, but the damage in the S1 generation was not more severe than that in the S0 generation. Methylation Sensitive Amplified Polymorphism (MSAP) analysis of the two generations indicated that ozone stress-induced methylation variations ranging from 10.82% to 13.59%, with demethylation events ranged from 0.52% to 5.58%, while hypermethylation occurred between 0.35% and 2.76%. Reproductive growth stages were more sensitive to ozone than vegetative stages. Notably, the S1 generation exhibited widespread demethylation variations, primarily at CNG sites, compared to S0 under similar stress conditions. The inheritance pattern between S0 and S1 generations was mainly of the A-A-B-A type. By recovering and sequencing methylation variant bands, we identified six stress-related differential amplification sequences, implicating these variants in various biological processes. These findings underscore the potential significance of DNA methylation variations as a critical mechanism in plants' response to ozone stress, providing theoretical insights and references for a comprehensive understanding of plant adaptation mechanisms to ozone stress and the epigenetic role of DNA methylation in abiotic stress regulation. [ABSTRACT FROM AUTHOR]

Published

2024

36. 不同浓度间歇性臭氧处理对猕猴桃贮藏保鲜 效果及抗氧化系统的影响.

Author

李 欣, 梁子兆, 范思仪, 何兴兴, 刘 朴, and 关文强

Subjects

SUPEROXIDE dismutase, KIWIFRUIT, VITAMIN C, NUTRITIONAL value, OZONE

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

37. Ozonation of Popcorn Kernels: Saturation Kinetics at Different Specific Flow Rates, Control of Aspergillus flavus Infection, and Grain Quality Analysis.

Author

Silva, Marcus Vinícius Assis, Faroni, Lêda Rita D'Antonino, de Alencar, Ernandes Rodrigues, Viana, José Marcelo Soriano, Sitoe, Eugénio da Piedade Edmundo, Salvador, Davi Vittorazzi, Mason Filho, Vivaldo, and Magalhães, Carollayne Gonçalves

Subjects

ASPERGILLOSIS, ASPERGILLUS flavus, ELECTRIC conductivity, FARM produce, OZONE

Abstract

Ozone gas (O3) is a promising alternative for fungal inactivation in agricultural commodities. This study aimed to (i) investigate the influence of airflow on the saturation of popcorn kernels with ozone gas, (ii) evaluate its effectiveness in controlling Aspergillus flavus, and (iii) analyze the quality of ozonated grains. Samples of 3.0 kg of kernels were exposed to oxygen (control) or ozone at specific flow rates of 0.15 or 1.00 m3 min−1 t−1, with an input ozone concentration of 16.0 mg L−1 for 0, 6, 12, 24, 36, or 48 h. Quality parameters assessed included expansion volume, water content, electrical conductivity, and color. At 0.15 m3 min−1 t−1, ozone consumption and saturation time were lower, with an 80% reduction in A. flavus infection after 6 h. This flow rate did not affect grain expansion or water content. Conversely, at 1.0 m3 min−1 t−1, reductions in water content and expansion were observed with extended exposure. Electrical conductivity increased in both treatments, more significantly at the lower flow rate. In conclusion, ozonation at 0.15 m3 min−1 t−1 effectively inactivated A. flavus without compromising grain quality. [ABSTRACT FROM AUTHOR]

Published

2024

38. Consecutive Northward Super Typhoons Induced Extreme Ozone Pollution Events in Eastern China.

Author

Wang, Jiahe, Wang, Peng, Tian, Chunfeng, Gao, Meng, Cheng, Tiantao, and Mei, Wei

Subjects

EXTREME weather, SOLAR radiation, SOLAR temperature, AIR quality, OZONE, TYPHOONS

Abstract

Typhoons are one of the most important weather systems that can cause severe ozone (O3) pollution in eastern China. While the effects of individual typhoons on O3 concentrations have been extensively studied, the effects of consecutive northward typhoons and the underlying mechanisms remain unclear, partly due to the complex processes involved. Here, Typhoons Maysak and Haishen, two consecutive northward typhoons in 2020, are selected to investigate their impact on the O3 pollution in eastern China. The results show that consecutive northward typhoons not only produced and maintained meteorological conditions conducive to O3 generation (e.g., elevated temperatures and intensified solar radiation), but also facilitated local accumulation and cross-regional transport of O3. These factors jointly led to a 30% increase in O3 concentration in eastern China with a prolonged period of O3 pollution. Our work underscores the significance of complex meteorological conditions in O3 pollution occurrences during extreme weather events, advancing our understanding of how consecutive northward typhoons affect air quality. [ABSTRACT FROM AUTHOR]

Published

2024

39. Atmospheric chemistry of (Z)‐CF2HCF=CHCl: Kinetics and products of reaction with Cl atoms and OH radicals.

Author

Sulbaek Andersen, Mads Peter, Borcher, Josefine Ellerup, and Nielsen, Ole John

Subjects

*VERTICAL mixing (Earth sciences), *ATMOSPHERIC chemistry, *CHEMICAL kinetics, *RADICALS (Chemistry), *SMOG

Abstract

Long path length FTIR‐smog chamber techniques were used to study the title reactions in 650 Torr of N2, oxygen, or air diluent at 296 ± 3 K. Values of k(Cl + (Z)‐CF2HCF = CHCl)═(6.6 ± 0.7) × 10−11 and k(OH + (Z)‐CF2HCF═CHCl)═(4.1 ± 0.7) × 10−12 cm3 molecule−1 s−1 were measured. The IR spectrum of (Z)‐CF2HCF═CHCl is reported. The atmospheric lifetime of (Z)‐CF2HCF═CHCl is determined by the reaction with OH and is approximately 2.8 days. Reaction of (Z)‐CF2HCF═CHCl with Cl atoms gives HC(O)Cl and CF2HC(O)F as major primary products. Under environmental conditions, the OH radical initiated oxidation gives CF2HC(O)F and HC(O)Cl in yields of (98 ± 8)% and (100 ± 4)%, respectively. Accounting for non‐uniform horizontal and vertical mixing leads to a 100‐year time‐horizon global warming potential value for (Z)‐CF2HCF═CHCl of essentially zero. [ABSTRACT FROM AUTHOR]

Published

2024

40. Air quality in a small city: criteria pollutants, volatile organic compounds, metals, and microbes.

Author

Viteri, Gabriela, Aranda, Alfonso, de Mera, Yolanda Díaz, Rodríguez, Ana, Rodríguez, Diana, Rodríguez-Fariñas, Nuria, Valiente, Nicolas, and Seseña, Susana

Subjects

VOLATILE organic compounds, SMALL cities, DICHLOROMETHANE, PARTICULATE matter, POLLUTANTS

Abstract

This work presents a year-long integral study of air quality parameters in Ciudad Real, a small city in the center of Spain, and its influence on the nearby national park, Las Tablas de Daimiel. The study covers meteorological parameters and criteria pollutants such as O3, NO, NO2, SO2, and PM10. Additionally, for each month, a 1-week campaign was performed sampling air in sorbent tubes with 8-h time resolution to analyze anthropogenic volatile organic compounds and the effects of seasons, daytime, and working-weekend days. During these campaigns, 24-h PM2.5 samples were also collected to measure the load of bacteria and fungi, as well as the trace concentrations of elements. The city and the national park NOx profiles showed that emissions from the town had a non-perceivable effect on the protected area. PM10 levels in Ciudad Real were influenced by Saharan intrusions, as was the national park; however, Ciudad Real had a higher contribution from anthropogenic sources. Ozone levels were lower in the city during the cold season due to the higher concentration of NOx and have not changed significantly in the last decade. The VOCs with higher average concentrations were toluene, m,p-xylene, benzene, methylene chloride, and o-xylene, with traffic being the main source of these pollutants in the city. For benzene and carbon tetrachloride levels, weak carcinogenic risks were estimated. In PM2.5, the most abundant metals were Na, Zn, Mg, Ca, Al, Fe, and K. The carcinogenic and non-carcinogenic risks estimated from the levels of the studied metals were negligible. Bacterial and fungal counts positively correlated with the concentration of PM2.5. Microbial community composition showed seasonal variability, with the dominance of human pathogenic bacteria which correlated with certain pollutants such as SO2. Bacillus and Cutibacterium were the most abundant genera. [ABSTRACT FROM AUTHOR]

Published

2024

41. Ozone therapy mitigates parthanatos after ischemic stroke.

Author

Li, Jiahui, Liu, Xiaolei, Wang, Zengze, Xie, Pengyun, Zhu, Min, Zhong, Hanhui, Luo, Sirui, Tang, Jing, and Mo, Guixi

Subjects

NUCLEAR factor E2 related factor, OZONE therapy, ISCHEMIC stroke, REACTIVE oxygen species, STROKE

Abstract

Background: Stroke is a leading cause of death worldwide, with oxidative stress and calcium overload playing significant roles in the pathophysiology of the disease. Ozone, renowned for its potent antioxidant properties, is commonly employed as an adjuvant therapy in clinical settings. Nevertheless, it remains unclear whether ozone therapy on parthanatos in cerebral ischemia–reperfusion injury (CIRI). This study aims to investigate the impact of ozone therapy on reducing parthanatos during CIRI and to elucidate the underlying mechanism. Methods: Hydrogen peroxide (H2O2) was utilized to mimic the generation of reactive oxygen species (ROS) in SH-SY5Y cell reperfusion injury in vitro, and an in vivo ischemic stroke model was established. Ozone saline was introduced for co-culture or intravenously administered to mice. Apoptosis and oxidative stress were assessed using flow cytometry and immunofluorescence. Western blotting was utilized to examine the expression of parthanatos signature proteins. The mechanism by which ozone inhibits parthanatos was elucidated through inhibiting PPARg or Nrf2 activity. Results: The findings demonstrated that ozone mitigated H2O2-induced parthanatos by either upregulating nuclear factor erythroid 2-related factor 2 (Nrf2) or activating peroxisome proliferator-activated receptorg (PPARg). Furthermore, through the use of calcium chelators and ROS inhibitors, it was discovered that ROS directly induced parthanatos and facilitated intracellular calcium elevation. Notably, a malignant feedback loop between ROS and calcium was identified, further amplifying the induction of parthanatos. Ozone therapy exhibited its efficacy by increasing PPARg activity or enhancing the Nrf2 translation, thereby inhibiting ROS production induced by H2O2. Concurrently, our study demonstrated that ozone treatment markedly inhibited parthanatos in stroke-afflicted mice. Additionally, ozone therapy demonstrated significant neuroprotective effects on cortical neurons, effectively suppressing parthanatos. Conclusions: These findings contribute valuable insights into the potential of ozone therapy as a therapeutic strategy for reducing parthanatos during CIRI, highlighting its impact on key molecular pathways associated with oxidative stress and calcium regulation. [ABSTRACT FROM AUTHOR]

Published

2024

42. Effect of ozone, hydrogen peroxide, and chlorine solution in reduction of chlorpyrifos and cypermethrin residues from cauliflower.

Author

Amjad, Adnan, Saeed, Muhammad Khalid, Amjad, Muhammad Rizwan, Hameed, Aneela, Nawaz, Haq, Ullah, Najeeb, Sarwar, Abid, Aziz, Tariq, Zahra, Nureen, Alamri, Abdulhakeem S., Alsanie, Walaa F., and Alhomrani, Majid

Subjects

*CYPERMETHRIN, *PESTICIDE pollution, *OZONE, *CAULIFLOWER, *PESTICIDES, *PESTICIDE residues in food, *HYDROGEN peroxide

Abstract

The extensive utilization of chlorpyrifos and cypermethrin in agriculture raises concerns regarding the accumulation of pesticide residues in human food, posing a threat to human health. This study aimed to investigate the effect of ozonation on cauliflower to decrease the level of pesticides. Cypermethrin and organophosphate chlorpyrifos were applied to cauliflower at specific doses. High-performance liquid chromatographic techniques were employed to detect pesticide residues in cauliflower. The effects of common oxidizers (hydrogen peroxide, chlorine, and ozone) on the reduction of pesticide residues were investigated. Solutions of hydrogen peroxide (10 and 100 ppm), chlorine (10 and 100 ppm), and ozone (10 and 100 ppm) were prepared, and the cauliflower sample was immersed for 20 min. The immersion in 10 ppm hydrogen peroxide solution reduced chlorpyrifos and cypermethrin by 68 and 65%, respectively. Meanwhile, at 100 ppm hydrogen peroxide solution, the reduction rates of chlorpyrifos and cypermethrin residues were 72 and 75%, respectively. Immersion in ozone solution at 10 ppm concentration reduced chlorpyrifos and cypermethrin by 58 and 57%, respectively. At 100 ppm ozone, chlorpyrifos was reduced up to 64%, and cypermethrin reduction was 74%. Chlorine immersion at 10 ppm reduced chlorpyrifos residues by 68% and cypermethrin residues by 81%, while a 100 ppm chlorine solution reduced chlorpyrifos residues by 100% and cypermethrin residues by 84%. From these results, it was concluded that chlorine was the most effective of all the cleaning solutions to remove pesticides from vegetables. [ABSTRACT FROM AUTHOR]

Published

2024

43. Enhanced Degradation of Ciprofloxacin Hydrochloride Using Hybrid Advanced Oxidation Process of Hydrodynamic Cavitation and Ozonation.

Author

Bodawar, Narendra, Shetty, Rohit, Kamble, Sanjay, and Kulkarni, Prashant

Subjects

*CAVITATION, *BACTERIAL diseases, *OZONIZATION, *CIPROFLOXACIN, *OZONE

Abstract

The degradation of ciprofloxacin hydrochloride (CFX), an extensively utilized antibiotic for bacterial infections, has been studied through the application of advanced oxidation processes (AOPs) including hydrodynamic cavitation (HC), ozonation (O3), the Fenton reaction, chemical oxidation, and hybrid AOPs such as HC/O3 and Fenton/O3. Among these, the hybrid combination of HC/O3 demonstrated the highest CFX degradation of 99.82 % within 180 min having an initial concentration of 1000 ppm. The optimization of the HC/O3 process was conducted by varying parameters including initial concentration, pH, ozone (O3) gas flowrate, and temperature. Throughout the degradation process, CFX underwent intermediate formation, which gradually degraded over time. [ABSTRACT FROM AUTHOR]

Published

2024

44. Sustenance of hydrogen–oxygen cellular detonation with ozone additions in confined space.

Author

Du, Minne, Gou, Pengfei, Gu, Gongtian, and Han, Wenhu

Subjects

*NOBLE gases, *OZONE, *COMPUTER simulation, *VELOCITY, *MIXTURES

Abstract

The sustenance of cellular detonation under weak confinement is studied through two-dimensional (2D) numerical simulations of hydrogen–oxygen mixtures surrounded by inert gas. The results show that in the weakly confined space, the cellular detonation with Chapman-Jouguet velocity can survive by increasing the width of the reactant layer and enhancing the reactivity of reactants, which ensures enough triple points and high reactivity in the reactant layer for detonation sustenance since transverse shocks cannot be regenerated and reinforced by boundary reflection. By adding ozone into the system and changing the width of the reactant layer, the relationship between induction length and detonation sustenance is established. It is found that the sustenance of cellular detonation in the weakly confined space is related to the ratio of the reactant layer width to the induction length. Ozone reactions can reduce the induction length and enhance reactivity, thereby promoting the generation of new transverse shocks and significantly improving the sustenance of cellular detonation in weakly confined space. [ABSTRACT FROM AUTHOR]

Published

2024

45. Virtual Sensing of Nitrite: A Novel Control for Safe Denitrification in Recirculating Aquaculture Systems (RASs).

Author

Ernst, Anneliese, Steinbach, Christian, Wagner, Kai, and Waller, Uwe

Subjects

*SUSTAINABILITY, *REDUCTION potential, *WATER purification, *FLOTATION, *AQUACULTURE

Abstract

Recirculating aquaculture system (RAS) technology is seen worldwide as a solution for sustainable fish production. However, there are still deficiencies in the process technology imperiling consistent operation and thus economic results. Drawbacks are linked to essential processes of the water treatment systems such as denitrification. Nitrogenous waste needs to be removed from RAS process water to maintain an adequate production environment for fish and to mitigate the environmental impact of discharged process water. At present, denitrification lacks reliable process control, especially regarding the organic carbon feed to heterotrophic denitrification processes. An investigation into heterotrophic denitrification in an experimental RAS resulted in the discovery of a virtual sensor based on measurements of the oxidation reduction potential (ORP). The virtual sensor responds to an insufficient carbon feed to denitrification. It is based on the oxidation of nitrite in an ozone-enhanced foam flotation installed downstream of the denitrification. The sensor essentially delivers a binary signal denoting either a complete or an incomplete denitrification process. The virtual sensor can be used for reliably controlling heterotrophic denitrification. It requires an upgraded process chain employing ozone-enhanced foam flotation (protein skimmer) downstream of the denitrification. However, the virtual sensor does not require any additional instrumentation. [ABSTRACT FROM AUTHOR]

Published

2024

46. De-Epithelization of the Human Amniotic Membrane Using a System Involving Ozonated Water and Ultrasound.

Author

Santos, Francisco Dimitre Rodrigo Pereira, Kawata, Bianca Akemi, Oliveira Heinzelmann, Tatiana Regina de, Belfort, Marcia Guelma Santos, Crispim de Oliveira Carvalho, Maycon, Móbille Awoyama, Sílvia, Gomes de Oliveira Neto, João, José de Lima, Carlos, and Barrinha Fernandes, Adriana

Subjects

*FOURIER transform infrared spectroscopy, *AMNION, *SCANNING electron microscopy, *TISSUE engineering, *ULTRASONIC imaging, *MICROBUBBLE diagnosis

Abstract

The aim of this study was to evaluate whether a system involving ozonated water and ultrasound causes de-epithelization of the human amniotic membrane (HAM). The experiment protocol was carried out in four stages. Stage I was carried out to determine the duration of the experiment. Stage II comprised the first experiment, involving four groups of samples studied in triplicate: control/natural (IN), processed with ultrasound in a liquid medium (US), processed with ozonated water (O3), and processed with ozonated water combined with ultrasound (US_O3). Stage III was performed to confirm the results, following the same steps present in Stage II. Stage IV involved the use of oxygen to confirm the hypothesis. Histological analysis was carried out to verify whether the effects of O2 were similar to those of O3. The system was activated, and ozonation was carried out for 10 min, as in the previous experiment, reaching a concentration level of 3.0 mg/L. The samples were submerged and positioned in the reservoir and processed separately for 55 min. The biochemical properties were assessed using Fourier transform infrared spectroscopy, and the morphology was examined using histology and scanning electron microscopy. The spectra of the samples exhibited similarities; however, subtle changes were highlighted, such as smooth band shifts and intensity changes. The morphology indicated that ultrasound achieved more efficient HAM de-epithelialization compared to ultrasound combined with ozonated water and ozonated water alone. One plausible hypothesis for this observation is that cavitation represents the primary mechanism responsible for de-epithelialization. When ultrasound is combined with ozone, the bubbles generated by ozone gas reduce the cavitation effect. This study is pioneering as it demonstrates an ultrasound system capable of the efficient de-epithelialization of the HAM. [ABSTRACT FROM AUTHOR]

Published

2024

47. Worldwide Rocket Launch Emissions 2019: An Inventory for Use in Global Models.

Author

Brown, Tyler F. M., Bannister, Michele T., Revell, Laura E., Sukhodolov, Timofei, and Rozanov, Eugene

Subjects

*ROCKET launching, *CHEMICAL processes, *ROCKET fuel, *AIR pollutants, *EMISSION inventories

Abstract

The rate of rocket launches is accelerating, driven by the rapid global development of the space industry. Rocket launches emit gases and particulates into the stratosphere, where they impact the ozone layer via radiative and chemical processes. We create a three‐dimensional per‐vehicle inventory of stratospheric emissions, accounting for flight profiles and all major fuel types in active use (solid, kerosene, cryogenic and hypergolic). In 2019, stratospheric (15–50 km) rocket launch emissions were 5.82 Gg CO2 ${\mathrm{C}\mathrm{O}}_{2}$, 6.38 Gg H2 ${\mathrm{H}}_{2}$O, 0.28 Gg black carbon, 0.22 Gg nitrogen oxides, 0.50 Gg reactive chlorine and 0.91 Gg particulate alumina. The geographic locations of launch sites are preserved in the inventory, which covers all active launch sites in 2019. We also report the emissions data from contemporary vehicles that were not launched in 2019, so that users have freedom to construct their own launch activity scenarios. A subset of the inventory—stratospheric emissions for successful launches in 2019—is freely available and formatted for direct use in global chemistry‐climate or Earth system models. Plain Language Summary: Many governments and companies have expressed bold ambitions to grow their presence in space. However, rocket launches throw out a stream of air pollutants from their burnt fuel as they pass through the stratosphere, which is where the protective ozone layer resides. Currently, launch operators do not have to measure the impacts of their activities on the ozone layer. We gather together all the publicly available information on rocket launches in 2019, from 18 active spaceports worldwide, and make some careful assumptions to convert each rocket's fuel to its burnt fuel products left in the atmosphere. We encourage modeling groups to use our inventory for studies on how rocket launches may impact the ozone layer. Key Points: We compile a comprehensive emissions inventory of all rocket launches in 2019 at 18 active spaceportsIt itemizes chemically and radiatively active species that are produced by the main rocket fuels (kerosene, cryogenic, solid and hypergolic)We discuss the inventory's uncertainties and its usage in global models to study the impacts of rocket launches on the ozone layer [ABSTRACT FROM AUTHOR]

Published

2024

48. Leaching Platinum Group Metals from Simulated Spent Auto-Catalyst Material Using Ozone and Hydrochloric Acid.

Author

Knight, Marcus, van Wyk, Petrie, Akdogan, Guven, and Bradshaw, Steven

Subjects

*HYDROCHLORIC acid, *PRECIOUS metals, *INDUSTRIAL metals, *OZONE, *POINT set theory, *LEACHING, *PLATINUM group

Abstract

This paper reports the development of a process for leaching Pt, Pd, and Rh from simulated spent auto-catalyst material using ozone and hydrochloric acid in order to produce a pregnant leach solution that could be fed to an industrial precious metal refinery. The effects of O3 mass flow, initial acid concentration, and temperature were investigated using a Box–Behnken experimental design with three centre-point runs and a total leach time of 6 h. Set points of 3.34, 5.01, and 6.68 g/h; 1.0 M, 3.0 M, and 5.0 M; and 30, 60, and 90 °C were used for O3 mass flow, hydrochloric acid concentration, and temperature, respectively. The optimal extractions for Pt, Pd, and Rh were 80%, 85%, and 42%, respectively, at 5.01 g/h O3, 5.0 M HCl, and 90 °C. Statistical analyses indicated high dependencies of Pd and Rh on hydrochloric acid concentration and temperature, with only Pt displaying a significant dependence on O3 mass flow. [ABSTRACT FROM AUTHOR]

Published

2024

49. Black Carbon Radiative Impacts on Surface Atmospheric Oxidants in China with WRF-Chem Simulation.

Author

Dai, Wei, Cheng, Keqiang, Huang, Xiangpeng, and Xie, Mingjie

Subjects

*SPRING, *AUTUMN, *SOLAR atmosphere, *SOLAR radiation, *CARBON-black

Abstract

Black carbon (BC) changes the radiative flux in the atmosphere by absorbing solar radiation, influencing photochemistry in the troposphere. To evaluate the seasonal direct radiative effects (DREs) of BC and its influence on surface atmospheric oxidants in China, the WRF-Chem model was utilized in this study. The simulation results suggested that the average annual mean values of the clear-sky DREs of BC at the top of the atmosphere, in the atmosphere and at the surface over China are +2.61, +6.27 and −3.66 W m−2, respectively. Corresponding to the seasonal variations of BC concentrations, the relative changes of the mean surface photolysis rates (J[O1D], J[NO2] and J[HCHO]) in the four seasons range between −3.47% and −6.18% after turning off the BC absorption, which further leads to relative changes from −4.27% to −6.82%, −2.14% to −4.40% and −0.47% to −2.73% in hydroxyl (OH) radicals, hydroperoxyl (HO2) radicals and ozone (O3), respectively. However, different from the relative changes, the absolute changes in OH and HO2 radicals and O3 after turning off BC absorption show discrepancies among the different seasons. In the North China Plain (NCP) region, O3 concentration decreases by 1.79 ppb in the summer, which is higher than the magnitudes of 0.24–0.88 ppb in the other seasons. In southern China, the concentrations of OH and HO2 radicals reach the maximum decreases in the spring and autumn, followed by those in the summer and winter, which is due to the enhancement of solar radiation and the summer monsoon. Thus, BC inhibits the formation of atmospheric oxidants, which further weakens the atmospheric oxidative capacity. [ABSTRACT FROM AUTHOR]

Published

2024

50. Carbonyl Compounds Observed at a Suburban Site during an Unusual Wintertime Ozone Pollution Event in Guangzhou.

Author

Ge, Aoqi, Wu, Zhenfeng, Xiao, Shaoxuan, Huang, Xiaoqing, Song, Wei, Zhang, Zhou, Zhang, Yanli, and Wang, Xinming

Subjects

*EMISSIONS (Air pollution), *CARBONYL compounds, *VOLATILE organic compounds, *BIOMASS burning, *OZONE

Abstract

Carbonyl compounds are important oxygenated volatile organic compounds (VOCs) that play significant roles in the formation of ozone (O3) and atmospheric chemistry. This study presents comprehensive field observations of carbonyl compounds during an unusual wintertime ozone pollution event at a suburban site in Guangzhou, South China, from 19 to 28 December 2020. The aim was to investigate the characteristics and sources of carbonyls, as well as their contributions to O3 formation. Formaldehyde, acetone, and acetaldehyde were the most abundant carbonyls detected, with average concentrations of 7.11 ± 1.80, 5.21 ± 1.13, and 3.00 ± 0.94 ppbv, respectively, on pollution days, significantly higher than those of 2.57 ± 1.12, 2.73 ± 0.88, and 1.10 ± 0.48 ppbv, respectively, on nonpollution days. The Frame for 0-D Atmospheric Modeling (F0AM) box model simulations revealed that local production accounted for 62–88% of observed O3 concentrations during the pollution days. The calculated ozone formation potentials (OFPs) for various precursors (carbonyls and VOCs) indicated that carbonyl compounds contributed 32.87% of the total OFPs on nonpollution days and 36.71% on pollution days, respectively. Formaldehyde, acetaldehyde, and methylglyoxal were identified as the most reactive carbonyls, and formaldehyde ranked top in OFPs, and it alone contributed 15.92% of total OFPs on nonpollution days and 18.10% of total OFPs on pollution days, respectively. The calculation of relative incremental reactivity (RIR) indicates that ozone sensitivity was a VOC-limited regime, and carbonyls showed greater RIRs than other groups of VOCs. The model simulation showed that secondary formation has a significant impact on formaldehyde production, which is primarily controlled by alkenes and biogenic VOCs. The characteristic ratios and backward trajectory analysis also indicated the indispensable impacts of local primary sources (like industrial emissions and vehicle emissions) and regional sources (like biomass burning) through transportation. This study highlights the important roles of carbonyls, particularly formaldehyde, in forming ozone pollution in megacities like the Pearl River Delta region. [ABSTRACT FROM AUTHOR]

Published

2024