aerobic biooxidation

简明释义

需氧生物氧化作用;

英英释义

例句

1.In bioremediation, aerobic biooxidation is often employed to break down harmful substances in contaminated sites.

在生物修复中，通常采用好氧生物氧化来分解受污染地点的有害物质。

2.The process of aerobic biooxidation is essential for the treatment of wastewater in many industrial plants.

在许多工业厂房中，好氧生物氧化过程对于废水处理至关重要。

3.Researchers are studying aerobic biooxidation to enhance the degradation of organic pollutants in soil.

研究人员正在研究好氧生物氧化以增强土壤中有机污染物的降解。

4.Using aerobic biooxidation can significantly reduce the odor associated with landfill sites.

使用好氧生物氧化可以显著减少填埋场相关的气味。

5.The efficiency of aerobic biooxidation depends on the presence of sufficient oxygen and microorganisms.

好氧生物氧化的效率取决于足够的氧气和微生物的存在。

作文

The process of waste management has evolved significantly over the years, with various methods being developed to mitigate environmental impact. One such method that has gained attention is aerobic biooxidation, which refers to the biological oxidation of organic materials in the presence of oxygen. This technique utilizes microorganisms to break down complex organic substances into simpler compounds, ultimately leading to their mineralization and safe disposal. The importance of aerobic biooxidation lies in its efficiency and effectiveness in treating organic waste, particularly in municipal solid waste management and wastewater treatment.In the realm of environmental science, aerobic biooxidation plays a crucial role in the degradation of pollutants. Microorganisms such as bacteria and fungi thrive in oxygen-rich environments, where they metabolize organic matter. During this process, they convert harmful substances into less toxic forms, thereby reducing the overall burden on the ecosystem. For instance, when organic waste is subjected to aerobic biooxidation, it not only diminishes the volume of waste but also transforms it into useful byproducts like carbon dioxide and water.Moreover, the application of aerobic biooxidation extends beyond waste treatment. It is also utilized in bioremediation efforts, where contaminated sites are restored using biological agents. In such scenarios, the ability of microorganisms to degrade hazardous compounds under aerobic conditions is harnessed to clean up oil spills, heavy metal contamination, and other environmental hazards. This natural approach is often preferred due to its sustainability and lower ecological footprint compared to traditional chemical treatments.The effectiveness of aerobic biooxidation is influenced by several factors, including temperature, pH, and the presence of nutrients. Optimal conditions must be maintained to ensure that microorganisms remain active and efficient in their metabolic processes. For instance, maintaining a suitable temperature range can enhance microbial activity, thereby accelerating the rate of organic matter decomposition. Similarly, monitoring pH levels is essential, as extreme acidity or alkalinity can hinder microbial growth and function.In addition to its environmental benefits, aerobic biooxidation can also contribute to resource recovery. Through the breakdown of organic waste, valuable resources such as biogas can be produced. Biogas, primarily composed of methane, can be harnessed as a renewable energy source. This not only aids in waste reduction but also promotes energy sustainability, showcasing the multifaceted advantages of aerobic biooxidation in modern waste management practices.In conclusion, aerobic biooxidation is a vital process in the field of environmental management, offering an effective solution for organic waste treatment and pollution mitigation. Its reliance on natural biological processes aligns with the growing emphasis on sustainable practices in waste management. As technology advances, further research into optimizing aerobic biooxidation could lead to even greater efficiencies and applications, making it an indispensable tool in our efforts to protect the environment and promote a healthier planet.

废物管理的过程在多年来发生了显著的变化，开发了各种方法以减轻环境影响。其中一种引起关注的方法是aerobic biooxidation，即在氧气存在下对有机物质进行生物氧化的过程。这一技术利用微生物将复杂的有机物分解为更简单的化合物，最终导致其矿化和安全处置。aerobic biooxidation的重要性在于其在处理有机废物方面的高效性和有效性，特别是在城市固体废物管理和污水处理领域。在环境科学领域，aerobic biooxidation在污染物降解中发挥着至关重要的作用。细菌和真菌等微生物在富氧环境中繁衍生息，代谢有机物。在这一过程中，它们将有害物质转化为较少毒性的形式，从而减少对生态系统的整体负担。例如，当有机废物经过aerobic biooxidation处理时，不仅减少了废物的体积，还将其转化为二氧化碳和水等有用的副产品。此外，aerobic biooxidation的应用超越了废物处理。它还被用于生物修复工作，在这些工作中，使用生物剂恢复受污染的地点。在这种情况下，微生物在好氧条件下降解有害化合物的能力被利用来清理石油泄漏、重金属污染和其他环境危害。这种自然方法通常因其可持续性和较低的生态足迹而受到青睐，相比传统化学处理更具优势。aerobic biooxidation的有效性受多种因素的影响，包括温度、pH值和养分的存在。必须维持最佳条件，以确保微生物在其代谢过程中保持活跃和高效。例如，保持适宜的温度范围可以增强微生物活动，从而加快有机物分解的速度。同样，监测pH水平也至关重要，因为极端的酸性或碱性可能会阻碍微生物的生长和功能。除了环境利益，aerobic biooxidation还可以促进资源回收。通过对有机废物的分解，可以产生生物气等有价值的资源。生物气主要由甲烷组成，可以作为可再生能源加以利用。这不仅有助于减少废物，还促进了能源的可持续性，展示了aerobic biooxidation在现代废物管理实践中的多方面优势。总之，aerobic biooxidation是环境管理领域的重要过程，为有机废物处理和污染缓解提供了有效解决方案。其依赖于自然生物过程的特性与日益强调的可持续废物管理实践相一致。随着技术的进步，对优化aerobic biooxidation的进一步研究可能会导致更大的效率和应用，使其成为我们保护环境和促进健康星球努力中不可或缺的工具。