compositional material balance

简明释义

1. 组分物质平衡; 2. 组分物料平衡;

英英释义

例句

1.Researchers found that the compositional material balance 成分物质平衡 in the soil directly affects plant growth.

研究人员发现，土壤中的compositional material balance 成分物质平衡 直接影响植物生长。

2.To improve product quality, the factory implemented strict controls on compositional material balance 成分物质平衡 during the manufacturing process.

为了提高产品质量，工厂在制造过程中实施了对compositional material balance 成分物质平衡的严格控制。

3.In chemistry, understanding the compositional material balance 成分物质平衡 helps predict the outcome of reactions.

在化学中，理解compositional material balance 成分物质平衡 有助于预测反应结果。

4.In the field of environmental science, maintaining a proper compositional material balance 成分物质平衡 is crucial for assessing ecosystem health.

在环境科学领域，维持适当的compositional material balance 成分物质平衡 对评估生态系统健康至关重要。

5.The engineer emphasized the need for a precise compositional material balance 成分物质平衡 in the design of the new composite materials.

工程师强调了在新复合材料设计中需要精确的compositional material balance 成分物质平衡。

作文

In the field of environmental science and engineering, the concept of compositional material balance plays a crucial role in understanding how materials interact within ecosystems. This principle is essential for assessing the inputs and outputs of various materials in a given system, ensuring that we can effectively manage resources and minimize waste. The compositional material balance refers to the accounting of different materials entering and leaving a system, taking into consideration their composition and the transformations they undergo during various processes. By analyzing these factors, scientists and engineers can develop strategies to optimize resource use and enhance sustainability.One of the primary applications of compositional material balance is in waste management. When dealing with industrial waste, it is vital to understand what materials are being produced, how they can be recycled, and what the potential environmental impacts are. For instance, if a factory produces a significant amount of plastic waste, a thorough analysis using compositional material balance can help identify ways to reduce this waste, such as through recycling programs or by altering production processes to use less plastic.Additionally, the compositional material balance is also important in the context of natural ecosystems. In ecological studies, researchers often assess the flow of nutrients and energy through different trophic levels. By applying the principles of compositional material balance, scientists can determine how changes in one part of the ecosystem, such as the introduction of a new species or the loss of a habitat, can affect the overall health and stability of the environment. This understanding is crucial for conservation efforts and for maintaining biodiversity.Furthermore, the concept of compositional material balance extends beyond environmental applications; it is also relevant in the fields of chemistry and materials science. When developing new materials, researchers must consider how different components will interact, how they will change under various conditions, and what the overall impact on the material's performance will be. By utilizing compositional material balance, scientists can create more efficient and effective materials that meet specific performance criteria while minimizing negative environmental impacts.In conclusion, the concept of compositional material balance is fundamental across various disciplines, including environmental science, ecology, and materials science. It provides a framework for understanding the movement and transformation of materials within systems, enabling better decision-making regarding resource management and sustainability. As we continue to face environmental challenges, the application of compositional material balance will be essential in developing innovative solutions that promote a healthier planet for future generations.

在环境科学和工程领域，组成物质平衡的概念在理解材料如何在生态系统中相互作用方面发挥着至关重要的作用。这个原则对于评估特定系统中各种材料的输入和输出至关重要，确保我们能够有效管理资源并最小化废物。组成物质平衡是指对进入和离开一个系统的不同材料进行核算，考虑它们的组成以及在各种过程中所经历的转化。通过分析这些因素，科学家和工程师可以制定优化资源使用和增强可持续性的策略。组成物质平衡的主要应用之一是在废物管理中。当处理工业废物时，了解生产了哪些材料、如何回收利用以及潜在的环境影响是至关重要的。例如，如果一家工厂产生了大量的塑料废物，通过使用组成物质平衡进行彻底分析，可以帮助识别减少这些废物的方法，例如通过回收计划或通过改变生产过程以使用更少的塑料。此外，组成物质平衡在自然生态系统的背景下也很重要。在生态研究中，研究人员通常评估营养物质和能量在不同营养级之间的流动。通过应用组成物质平衡的原则，科学家可以确定生态系统中某一部分的变化，例如新物种的引入或栖息地的丧失，如何影响环境的整体健康和稳定性。这种理解对于保护工作和维持生物多样性至关重要。此外，组成物质平衡的概念不仅限于环境应用；在化学和材料科学领域也具有相关性。在开发新材料时，研究人员必须考虑不同成分之间的相互作用、它们在各种条件下的变化，以及对材料性能的整体影响。通过利用组成物质平衡，科学家可以创造出更高效、更有效的材料，以满足特定的性能标准，同时最小化对环境的负面影响。总之，组成物质平衡的概念在环境科学、生态学和材料科学等多个学科中都是基础性的。它提供了一个理解材料在系统中运动和转化的框架，使得关于资源管理和可持续性的决策更加有效。随着我们继续面临环境挑战，应用组成物质平衡将在开发促进未来世代健康星球的创新解决方案中发挥重要作用。