nitric nitrogen

简明释义

硝酸态氮

英英释义

例句

1.The laboratory tested the levels of nitric nitrogen 氮氧化物 in the air to assess pollution.

实验室测试了空气中nitric nitrogen 氮氧化物 的含量，以评估污染情况。

2.The chemical reaction produced large amounts of nitric nitrogen 氮氧化物 which is harmful to the environment.

该化学反应产生了大量的nitric nitrogen 氮氧化物，这对环境有害。

3.The industry is working to reduce emissions of nitric nitrogen 氮氧化物 from manufacturing processes.

该行业正在努力减少制造过程中排放的nitric nitrogen 氮氧化物。

4.Excessive use of fertilizers can lead to high concentrations of nitric nitrogen 氮氧化物 in water bodies.

过量使用肥料可能导致水体中nitric nitrogen 氮氧化物 的浓度过高。

5.In agriculture, nitric nitrogen 氮氧化物 is often used as a fertilizer to enhance plant growth.

在农业中，nitric nitrogen 氮氧化物 常被用作肥料以促进植物生长。

作文

Understanding the role of various nitrogen compounds in our environment is crucial for both scientific research and practical applications. One such compound that often comes up in discussions about environmental science is nitric nitrogen, which refers to nitrogen in its oxidized form, primarily as nitric oxide (NO) or nitrogen dioxide (NO2). These compounds play significant roles in atmospheric chemistry and can have profound effects on air quality and climate change. Nitrogen is an essential element for life, being a fundamental part of amino acids and nucleic acids. However, when it exists in certain forms, such as nitric nitrogen, it can contribute to pollution and health hazards. For instance, nitric nitrogen compounds are produced during combustion processes, such as those occurring in vehicles and industrial facilities. These emissions can lead to the formation of ground-level ozone, a harmful pollutant that affects respiratory health and can damage crops. Moreover, nitric nitrogen is also involved in the process of acid rain formation. When nitrogen oxides (NOx) react with water vapor in the atmosphere, they can form nitric acid, which falls to the ground as acid rain. This phenomenon can severely impact ecosystems, leading to soil degradation and harming aquatic life in rivers and lakes. Understanding the sources and effects of nitric nitrogen is vital for developing strategies to mitigate its negative impacts. In agricultural practices, the application of fertilizers containing nitrogen is common. However, excessive use can lead to runoff, where nitric nitrogen enters waterways and contributes to nutrient pollution. This can result in algal blooms, which deplete oxygen in the water and create dead zones where aquatic life cannot survive. Therefore, managing nitrogen usage in agriculture is essential for maintaining healthy ecosystems. On a global scale, the challenge of managing nitric nitrogen emissions is compounded by the need for sustainable development. As populations grow and industrial activities increase, the demand for energy and food rises, leading to higher nitrogen emissions. Policymakers and scientists must work together to find solutions that balance economic growth with environmental protection. This includes investing in cleaner technologies, promoting public transportation to reduce vehicular emissions, and encouraging sustainable farming practices. In conclusion, nitric nitrogen is a significant component of our environment that warrants careful consideration. Its implications for health, ecosystems, and climate change make it a critical topic in environmental science. By understanding the sources and effects of nitric nitrogen, we can take informed actions to protect our planet and ensure a healthier future for all living beings.

理解各种氮化合物在我们环境中的作用对于科学研究和实际应用至关重要。其中一个在环境科学讨论中经常提到的化合物是硝酸氮，它指的是氮的氧化形式，主要是氮氧化物（NO）或二氧化氮（NO2）。这些化合物在大气化学中发挥着重要作用，并可能对空气质量和气候变化产生深远影响。 氮是生命的基本元素，是氨基酸和核酸的重要组成部分。然而，当它以某些形式存在时，例如硝酸氮，它可能会导致污染和健康危害。例如，硝酸氮化合物是在燃烧过程中产生的，如车辆和工业设施中的燃烧。这些排放可能导致地面臭氧的形成，这是一种有害的污染物，会影响呼吸健康并损害作物。 此外，硝酸氮还参与酸雨形成的过程。当氮氧化物（NOx）与大气中的水蒸气反应时，它们可以形成硝酸，降落到地面形成酸雨。这种现象可能严重影响生态系统，导致土壤退化并伤害河流和湖泊中的水生生物。因此，了解硝酸氮的来源和影响对于制定减轻其负面影响的策略至关重要。 在农业实践中，施用含氮肥料是常见的。然而，过量使用可能会导致径流，其中硝酸氮进入水道并导致营养污染。这可能导致藻类暴发，耗尽水中的氧气，形成水生生物无法生存的死区。因此，管理农业中氮的使用对于维持健康的生态系统至关重要。 在全球范围内，管理硝酸氮排放的挑战因可持续发展的需要而加剧。随着人口增长和工业活动增加，对能源和食品的需求上升，导致氮排放增加。政策制定者和科学家必须共同努力寻找平衡经济增长与环境保护的解决方案。这包括投资清洁技术，促进公共交通以减少车辆排放，以及鼓励可持续农业实践。 总之，硝酸氮是我们环境中的一个重要组成部分，值得仔细考虑。它对健康、生态系统和气候变化的影响使其成为环境科学中的关键主题。通过了解硝酸氮的来源和影响，我们可以采取知情行动来保护我们的星球，并确保所有生物的更健康未来。