Nicht lieferbar
Andere Kunden interessierten sich auch für
![Karanligin Gözleri]( "Karanligin Gözleri")
Karanligin Gözleri17,99 €![Abandoned Massachusetts: Lost Treasures of the Bay State]( "Abandoned Massachusetts: Lost Treasures of the Bay State")
Abandoned Massachusetts: Lost Treasures of the Bay State21,99 €![Excellence in the Arts]( "Excellence in the Arts")
Excellence in the Arts13,99 €![Contemporary China Review 2022 Summer Issue]( "Contemporary China Review 2022 Summer Issue")
Contemporary China Review 2022 Summer Issue36,99 €![Ageing and Migration in a Global Context]( "Ageing and Migration in a Global Context")
Ageing and Migration in a Global Context95,99 €![5000+ Objective Chapter-wise Question Bank for CBSE Class 12 Physics, Chemistry & Mathematics with Case base, A/R & MCQs]( "5000+ Objective Chapter-wise Question Bank for CBSE Class 12 Physics, Chemistry & Mathematics with Case base, A/R & MCQs")
5000+ Objective Chapter-wise Question Bank for CBSE Class 12 Physics, Chemistry & Mathematics with Case base, A/R & MCQs37,99 €![Evolución del Diseño y la Tecnología de Grandes Telescopios Terrestres]( "Evolución del Diseño y la Tecnología de Grandes Telescopios Terrestres")
Evolución del Diseño y la Tecnología de Grandes Telescopios Terrestres19,99 €
The study of the relationship between surface ozone and its precursors is crucial for understanding the formation and control of air pollution. In this context, Ashima Sharma conducted a Surface Ozone and Precursor Relationship Study in Delhi, India. Delhi is one of the most polluted cities in the world, and air pollution is a severe problem that affects the health and well-being of the population. The study focuses on the photochemical smog in Delhi, which is formed due to the emissions of nitrogen oxides (NOx) and volatile organic compounds (VOCs) that react in the presence of sunlight to form ozone. The research investigates the influence of meteorology and weather conditions on the atmospheric chemistry of ozone and its precursors. The study also employs atmospheric modeling to assess the contribution of different pollution sources to the ozone formation and to identify the most effective ozone control strategies. The research findings provide insights into the air quality of the urban environment, the pollution sources, and the atmospheric transport of ozone and its precursors. The study confirms that anthropogenic activities, such as vehicular exhaust and industrial activities, are the primary sources of ozone precursors, while natural sources, such as biomass burning, also contribute to the ozone formation. The research also reveals that the atmospheric chemistry of ozone and its precursors is influenced by the atmospheric dynamics and the boundary layer processes. The Surface Ozone and Precursor Relationship Study also investigates the health effects of ozone exposure, particularly on respiratory and cardiovascular diseases, and highlights the importance of ozone regulation and mitigation strategies. The research provides valuable information for policymakers, environmental health specialists, and atmospheric scientists to design effective policies and strategies to control air pollution and protect public health. The study employs various techniques, such as atmospheric monitoring, remote sensing, and atmospheric modeling, to assess the atmospheric chemistry of ozone and its precursors, atmospheric deposition, and atmospheric boundary layer dynamics. The research also investigates the ozone chemistry, physics, and toxicology, and contributes to the advancement of atmospheric sciences and atmospheric research. Overall, the Surface Ozone and Precursor Relationship Study is a significant contribution to the understanding of air pollution and its impact on the environment and human health.