volatile matter

简明释义

挥发物质

英英释义

例句

1.The analysis of coal includes measuring the amount of volatile matter (挥发分) to determine its quality.

煤的分析包括测量挥发分（volatile matter）的含量，以确定其质量。

2.When assessing soil quality, scientists often measure the volatile matter (挥发分) to evaluate organic matter decomposition.

在评估土壤质量时，科学家们通常测量挥发分（volatile matter）以评估有机物分解情况。

3.The volatile matter (挥发分) content affects the calorific value of biomass materials.

挥发分（volatile matter）含量影响生物质材料的热值。

4.In the production of biofuels, the volatile matter (挥发分) content is crucial for optimizing combustion efficiency.

在生物燃料的生产中，挥发分（volatile matter）含量对优化燃烧效率至关重要。

5.Higher volatile matter (挥发分) levels in wood can lead to increased smoke production during burning.

木材中较高的挥发分（volatile matter）水平可能导致燃烧时烟雾增加。

作文

In the study of materials, especially in fields like chemistry and environmental science, understanding the concept of volatile matter is crucial. Volatile matter refers to the components of a substance that can easily evaporate at normal temperatures and pressures. This characteristic is particularly important when analyzing organic materials such as coal, biomass, and various types of waste. The presence of volatile matter in these materials can significantly influence their combustion properties, energy content, and overall usability. For instance, in the context of coal, the amount of volatile matter present can determine how well the coal burns. Higher volatile matter content usually means that the coal will ignite more easily and produce a higher flame temperature, making it a preferred choice for many industrial applications. Conversely, coal with low volatile matter content may burn slower and provide less energy, which might not be suitable for certain processes. Furthermore, the analysis of volatile matter is not only limited to coal but extends to other organic materials as well. In the case of biomass, which includes plant materials and animal waste, the volatile matter content can vary widely based on the type of biomass and its moisture content. Understanding the volatile matter in biomass is essential for optimizing combustion systems and improving energy efficiency in renewable energy production. The environmental implications of volatile matter are also significant. When organic materials are burned, the volatile matter can lead to the release of pollutants into the atmosphere, contributing to air quality issues and climate change. Therefore, it is vital for researchers and policymakers to monitor and regulate the levels of volatile matter emitted from various sources. Moreover, in the field of waste management, the concept of volatile matter plays a key role in determining how waste materials can be processed and utilized. For example, municipal solid waste often contains a high percentage of volatile matter, which can be converted into energy through processes like incineration or gasification. By understanding the volatile matter content in waste, we can develop more effective waste-to-energy technologies that reduce landfill use and promote sustainability. In conclusion, the significance of volatile matter spans across various disciplines, impacting energy production, environmental health, and waste management strategies. A comprehensive understanding of volatile matter enables scientists and engineers to design better materials and processes, ultimately leading to improved sustainability and efficiency in our use of resources. As we continue to face global challenges related to energy and the environment, the study of volatile matter will remain a critical area of research and application.

在材料研究中，特别是在化学和环境科学等领域，理解挥发性物质的概念至关重要。挥发性物质是指在正常温度和压力下可以轻易蒸发的物质成分。这一特性在分析煤、 biomass和各种废物等有机材料时尤为重要。这些材料中挥发性物质的存在可以显著影响其燃烧特性、能量含量和整体可用性。例如，在煤的背景下，存在的挥发性物质的数量可以决定煤的燃烧效果。较高的挥发性物质含量通常意味着煤更容易点燃，并产生更高的火焰温度，这使其成为许多工业应用的首选。相反，低挥发性物质含量的煤可能燃烧较慢，提供的能量较少，这可能不适合某些工艺。此外，挥发性物质的分析不仅限于煤，还扩展到其他有机材料。在生物质的情况下，包括植物材料和动物废物，挥发性物质的含量可能因生物质的类型和水分含量而异。理解生物质中的挥发性物质对优化燃烧系统和提高可再生能源生产的能效至关重要。挥发性物质的环境影响也非常显著。当有机材料被燃烧时，挥发性物质可能导致污染物释放到大气中，造成空气质量问题和气候变化。因此，研究人员和政策制定者监测和调节来自各种来源的挥发性物质排放水平至关重要。此外，在废物管理领域，挥发性物质的概念在确定废物材料如何处理和利用方面起着关键作用。例如，市政固体废物通常含有较高比例的挥发性物质，可以通过焚烧或气化等过程转化为能源。通过了解废物中的挥发性物质含量，我们可以开发更有效的废物转能源技术，从而减少填埋场的使用并促进可持续发展。总之，挥发性物质的重要性跨越多个学科，影响着能源生产、环境健康和废物管理策略。全面理解挥发性物质使科学家和工程师能够设计更好的材料和工艺，最终提高我们资源利用的可持续性和效率。随着我们继续面临与能源和环境相关的全球挑战，对挥发性物质的研究将仍然是一个关键的研究和应用领域。