dry ash free

简明释义

干货

英英释义

例句

1.In soil testing, we need samples that are dry ash free 无灰烬干燥 to determine organic content accurately.

在土壤测试中，我们需要无灰烬干燥的样本，以准确确定有机含量。

2.The laboratory requires a sample that is dry ash free 无灰烬干燥 to ensure accurate chemical analysis.

实验室要求样品必须是无灰烬干燥以确保化学分析的准确性。

3.The quality control team checks if the product is dry ash free 无灰烬干燥 before it goes to market.

质量控制团队在产品上市前检查其是否为无灰烬干燥。

4.The manufacturer specifies that the insulation material should be dry ash free 无灰烬干燥 to improve thermal efficiency.

制造商规定绝缘材料应为无灰烬干燥以提高热效率。

5.For the best results in combustion tests, the fuel must be dry ash free 无灰烬干燥.

为了在燃烧测试中获得最佳结果，燃料必须是无灰烬干燥的。

作文

In the world of material science and engineering, the term dry ash free is often used to describe a specific property of materials, particularly in the context of coal and other carbonaceous substances. The dry ash free measurement refers to the amount of combustible material present in a sample after it has been subjected to drying and the removal of ash content. This property is crucial for understanding the energy potential of fuels, as it provides a clearer picture of how much usable energy can be derived from the material. When we discuss the significance of dry ash free, it is essential to consider its applications in various industries. For instance, in the coal industry, knowing the dry ash free content helps in evaluating the quality of coal. Higher dry ash free values typically indicate that the coal has a greater energy yield, making it more desirable for power generation. This is particularly important in regions where energy resources are limited, and efficiency is key to meeting demand. Moreover, the dry ash free concept is not limited to coal alone; it extends to other materials such as biomass and petroleum products. In biomass, for example, determining the dry ash free value can help in assessing its suitability as a renewable energy source. As the world shifts towards sustainable energy solutions, understanding the properties of biomass through dry ash free analysis becomes increasingly relevant. In addition to its practical applications, the dry ash free measurement also plays a role in environmental assessments. By analyzing the dry ash free content of various fuels, researchers and policymakers can make informed decisions regarding emissions and pollution control. Fuels with low dry ash free content tend to produce fewer pollutants when burned, contributing to cleaner air and a healthier environment. Furthermore, the importance of dry ash free extends to academic research and development. Scientists often conduct experiments to improve the dry ash free properties of materials, seeking ways to enhance their energy efficiency and reduce waste. Innovations in this area can lead to breakthroughs in energy production technologies, such as more efficient combustion processes or the development of new fuel types that maximize energy output while minimizing environmental impact. In conclusion, the term dry ash free encapsulates a significant aspect of material evaluation in the context of energy production and environmental sustainability. Its implications stretch across various industries, influencing everything from energy policy to scientific research. As we continue to explore new energy sources and strive for greater efficiency, understanding and applying the concept of dry ash free will remain vital for both economic and ecological reasons.

在材料科学和工程领域，术语干灰分通常用于描述材料的特定属性，特别是在煤炭和其他碳质物质的背景下。干灰分测量指的是在样品经过干燥和去除灰分后，所剩余的可燃物质的量。这一属性对于理解燃料的能量潜力至关重要，因为它提供了一个更清晰的图像，显示了可以从该材料中提取多少可用能量。当我们讨论干灰分的重要性时，考虑其在各个行业中的应用是至关重要的。例如，在煤炭行业，了解干灰分含量有助于评估煤的质量。较高的干灰分值通常表明煤具有更大的能量产出，使其在发电中更具吸引力。这在能源资源有限且效率对满足需求至关重要的地区尤为重要。此外，干灰分概念不仅限于煤炭；它还扩展到其他材料，如生物质和石油产品。在生物质中，例如，确定干灰分值可以帮助评估其作为可再生能源来源的适用性。随着世界向可持续能源解决方案转变，通过干灰分分析理解生物质的特性变得越来越相关。除了其实际应用外，干灰分测量在环境评估中也发挥着作用。通过分析各种燃料的干灰分含量，研究人员和政策制定者可以就排放和污染控制做出明智的决策。低干灰分含量的燃料在燃烧时往往产生较少的污染物，从而有助于改善空气质量和保护环境。此外，干灰分的重要性还延伸到学术研究和开发。科学家们经常进行实验，以改善材料的干灰分特性，寻求提高其能量效率和减少废物的方法。在这一领域的创新可能导致能源生产技术的突破，例如更高效的燃烧过程或新型燃料的开发，这些燃料最大化能量输出，同时最小化对环境的影响。总之，术语干灰分概括了在能源生产和环境可持续性背景下材料评估的重要方面。其影响跨越多个行业，影响从能源政策到科学研究的一切。随着我们继续探索新的能源来源并努力实现更高的效率，理解和应用干灰分的概念将对经济和生态原因至关重要。