basic sediment and water content

简明释义

1. 沉积物和水的含量; 2. 杂质含量; 3. 含砂含水; 4. 油罐底水渣;

英英释义

例句

1.Before transporting the crude oil, we need to check its basic sediment and water content to ensure it meets industry standards.

在运输原油之前，我们需要检查其基本沉淀物和水分含量，以确保符合行业标准。

2.A high basic sediment and water content can lead to increased processing costs in refineries.

高的基本沉淀物和水分含量会导致炼油厂的加工成本增加。

3.The laboratory results showed an alarming level of basic sediment and water content in the fuel.

实验室结果显示燃料中有令人担忧的基本沉淀物和水分含量。

4.The oil sample was tested for basic sediment and water content, which indicates the quality of the crude oil.

这份油样被测试了基本沉淀物和水分含量，这表明原油的质量。

5.Regular monitoring of basic sediment and water content is essential for maintaining the integrity of storage tanks.

定期监测基本沉淀物和水分含量对于维护储罐的完整性至关重要。

作文

Understanding the concept of basic sediment and water content is crucial in various fields, particularly in environmental science and engineering. This term refers to the amount of sediment and water present in a specific sample, which can significantly influence the properties and behavior of soil or other materials. In this essay, I will explore the importance of measuring basic sediment and water content and its implications for both natural ecosystems and human activities.Firstly, let’s define what we mean by basic sediment and water content. Sediment typically comprises particles such as sand, silt, and clay, which are derived from the weathering of rocks and minerals. Water content, on the other hand, refers to the amount of moisture contained within a given material. Together, these two factors play a vital role in determining the physical characteristics of soil, including its drainage capabilities, nutrient availability, and overall fertility.In agricultural practices, understanding basic sediment and water content is essential for optimizing crop production. Farmers need to know the composition of their soil to make informed decisions about irrigation, fertilization, and crop selection. For instance, soil with high water content may retain nutrients better but could also lead to waterlogging, which can harm plant roots. Conversely, soil with low water content may require more frequent irrigation to support healthy crop growth. By accurately assessing basic sediment and water content, farmers can enhance their yields and promote sustainable farming practices.Moreover, the measurement of basic sediment and water content is critical in environmental monitoring and management. In wetlands, for example, the balance of sediment and water influences habitat conditions for various species. Excessive sedimentation can degrade water quality and disrupt the delicate ecosystems that depend on clean, flowing water. By regularly monitoring basic sediment and water content, environmental scientists can identify potential issues early on and implement strategies to mitigate negative impacts on wildlife and plant life.In addition to agriculture and environmental science, basic sediment and water content also plays a significant role in civil engineering and construction. When building structures such as roads, bridges, and buildings, engineers must consider the soil's composition to ensure stability and safety. High sediment content can lead to erosion and instability, while inadequate water content can result in soil shrinkage or expansion, affecting the integrity of the structure. Therefore, understanding basic sediment and water content is essential for designing robust infrastructure that can withstand environmental challenges.Lastly, the study of basic sediment and water content is relevant in the context of climate change. As precipitation patterns shift and extreme weather events become more common, the dynamics of sediment and water in our ecosystems are changing. Monitoring these changes can provide valuable insights into how climate change impacts soil health and water resources. This information is vital for developing adaptive strategies to manage our natural resources effectively.In conclusion, the concept of basic sediment and water content is fundamental across various disciplines, including agriculture, environmental science, civil engineering, and climate studies. By comprehensively understanding this term, we can make better decisions that promote sustainability, enhance productivity, and protect our natural ecosystems. As we face increasing environmental challenges, the importance of measuring and managing basic sediment and water content will only continue to grow, underscoring the need for ongoing research and innovation in this area.

理解基本沉积物和水分含量的概念在各个领域都至关重要，特别是在环境科学和工程中。这个术语指的是特定样本中存在的沉积物和水的数量，这会显著影响土壤或其他材料的性质和行为。在这篇文章中，我将探讨测量基本沉积物和水分含量的重要性及其对自然生态系统和人类活动的影响。首先，让我们定义一下基本沉积物和水分含量的含义。沉积物通常由沙子、淤泥和粘土等颗粒组成，这些颗粒是岩石和矿物风化的产物。水分含量则是指给定材料中所含水分的数量。这两个因素共同作用，对土壤的物理特性起着至关重要的作用，包括排水能力、养分可用性和整体肥力。在农业实践中，了解基本沉积物和水分含量对于优化作物生产至关重要。农民需要了解他们土壤的成分，以便做出关于灌溉、施肥和作物选择的明智决策。例如，水分含量高的土壤可能更好地保持养分，但也可能导致水涝，从而损害植物根系。相反，水分含量低的土壤可能需要更频繁的灌溉来支持健康的作物生长。通过准确评估基本沉积物和水分含量，农民可以提高产量并促进可持续农业实践。此外，测量基本沉积物和水分含量在环境监测和管理中也至关重要。在湿地中，例如，沉积物和水的平衡影响着各种物种的栖息条件。过多的沉积物会降低水质，破坏依赖于清洁流动水的脆弱生态系统。通过定期监测基本沉积物和水分含量，环境科学家可以及早识别潜在问题，并实施策略以减轻对野生动物和植物生命的负面影响。除了农业和环境科学外，基本沉积物和水分含量在土木工程和建筑中也起着重要作用。在建造道路、桥梁和建筑物等结构时，工程师必须考虑土壤的成分，以确保稳定性和安全性。高沉积物含量可能导致侵蚀和不稳定，而水分含量不足可能导致土壤收缩或膨胀，从而影响结构的完整性。因此，了解基本沉积物和水分含量对于设计能够承受环境挑战的坚固基础设施至关重要。最后，研究基本沉积物和水分含量与气候变化的背景相关。随着降水模式的变化和极端天气事件的增加，沉积物和水在我们的生态系统中的动态也在变化。监测这些变化可以提供有关气候变化如何影响土壤健康和水资源的宝贵见解。这些信息对于制定有效管理自然资源的适应性战略至关重要。总之，基本沉积物和水分含量的概念在农业、环境科学、土木工程和气候研究等各个学科中都是基础。通过全面理解这个术语，我们可以做出更好的决策，促进可持续发展，提高生产力，保护我们的自然生态系统。随着我们面临日益严重的环境挑战，测量和管理基本沉积物和水分含量的重要性只会继续增长，这强调了在这一领域进行持续研究和创新的必要性。