coal-water mixture

简明释义

煤水混合物

英英释义

例句

1.A coal-water mixture can reduce emissions compared to traditional coal burning.

与传统燃烧煤相比，煤水混合物可以减少排放。

2.We need to ensure the viscosity of the coal-water mixture is suitable for pumping.

我们需要确保煤水混合物的粘度适合泵送。

3.The power plant uses a coal-water mixture to generate electricity efficiently.

发电厂使用煤水混合物来高效发电。

4.The transportation of coal-water mixtures is easier than that of solid coal.

运输煤水混合物比运输固体煤更容易。

5.Researchers are studying the properties of coal-water mixtures for better combustion.

研究人员正在研究煤水混合物的特性以改善燃烧效果。

作文

The quest for sustainable energy sources has led researchers to explore various alternatives to traditional fossil fuels. One such innovative solution is the use of a coal-water mixture, which combines coal with water to create a slurry that can be used in energy production. This method not only aims to reduce emissions but also seeks to optimize the efficiency of coal utilization. The coal-water mixture (煤水混合物) serves as a promising approach to address environmental concerns associated with coal combustion.The coal-water mixture is created by finely grinding coal and mixing it with water, resulting in a stable slurry that can be transported easily through pipelines. This process has several advantages over traditional coal handling methods. For one, the coal-water mixture reduces dust emissions during transport, which is a significant issue in coal mining and transportation. Dust particles can pose health risks to workers and nearby communities, making the use of a slurry an attractive alternative.Moreover, the coal-water mixture can enhance combustion efficiency. When burned, this mixture allows for more uniform distribution of heat, leading to improved energy output. This is particularly important in power generation, where maximizing the efficiency of fuel usage is crucial for both economic and environmental reasons. By using a coal-water mixture, power plants can achieve higher thermal efficiency, thereby reducing the amount of coal required for energy production.In addition to its benefits in energy generation, the coal-water mixture also opens up new possibilities for industrial applications. For instance, it can be used in cement production and other manufacturing processes that require high-temperature heat sources. The ability to use a slurry instead of solid coal can simplify logistics and reduce handling costs. Furthermore, the coal-water mixture can be adjusted to meet specific requirements, making it a versatile option for various industries.However, despite these advantages, the implementation of coal-water mixtures is not without challenges. One of the primary concerns is the potential environmental impact of coal mining and processing. While the mixture itself may reduce emissions during combustion, the extraction and preparation of coal still carry significant ecological footprints. Therefore, it is essential to adopt responsible mining practices and invest in technologies that minimize environmental harm.Another challenge is the infrastructure needed to support the widespread use of coal-water mixtures. Existing power plants and industrial facilities may require modifications to accommodate the new fuel type. This could involve significant investments in technology and training for personnel. As such, collaboration between governments, industries, and research institutions is vital to facilitate the transition towards this innovative energy solution.In conclusion, the coal-water mixture represents a forward-thinking approach to utilizing coal in a more environmentally friendly manner. By reducing dust emissions, enhancing combustion efficiency, and providing versatility for various industrial applications, it offers a promising alternative to traditional coal use. However, addressing the environmental impacts of coal extraction and ensuring the necessary infrastructure is in place will be critical to the successful adoption of this technology. As the world continues to seek sustainable energy solutions, the coal-water mixture could play a significant role in the future of energy production.

对可持续能源来源的追求促使研究人员探索各种替代传统化石燃料的方案。其中一种创新解决方案是使用煤水混合物，它将煤与水结合，形成一种可用于能源生产的浆料。这种方法不仅旨在减少排放，还寻求优化煤的利用效率。煤水混合物（coal-water mixture）作为一种有前景的方法，旨在解决与煤燃烧相关的环境问题。煤水混合物通过将煤粉碎并与水混合而成，形成一种稳定的浆料，可以通过管道轻松运输。这一过程相较于传统的煤处理方法具有若干优点。首先，煤水混合物在运输过程中减少了粉尘排放，这是煤矿开采和运输中的一个重大问题。粉尘颗粒可能对工人和附近社区构成健康风险，因此使用浆料成为一种吸引人的替代方案。此外，煤水混合物可以提高燃烧效率。当燃烧时，这种混合物允许热量更均匀地分布，从而提高能量输出。这在发电中尤为重要，因为最大限度地提高燃料利用效率对经济和环境都至关重要。通过使用煤水混合物，发电厂可以实现更高的热效率，从而减少能源生产所需的煤量。除了在能源生产中的好处外，煤水混合物还为工业应用开辟了新的可能性。例如，它可以用于水泥生产和其他需要高温热源的制造过程。使用浆料而不是固体煤可以简化物流并降低处理成本。此外，煤水混合物可以根据特定要求进行调整，使其成为各种行业的多功能选择。然而，尽管有这些优势，煤水混合物的实施并非没有挑战。主要的担忧之一是煤矿开采和加工对环境的潜在影响。虽然混合物本身可能在燃烧过程中减少排放，但煤的提取和准备仍然带来显著的生态足迹。因此，采用负责任的采矿实践，并投资于最小化环境危害的技术至关重要。另一个挑战是支持煤水混合物广泛使用所需的基础设施。现有的发电厂和工业设施可能需要进行修改，以适应这种新燃料类型。这可能涉及对技术的重大投资以及对人员的培训。因此，政府、工业和研究机构之间的合作对于促进向这一创新能源解决方案的过渡至关重要。总之，煤水混合物代表了一种前瞻性的方法，以更环保的方式利用煤。通过减少粉尘排放、增强燃烧效率以及为各种工业应用提供多样性，它为传统煤炭使用提供了一种有前景的替代方案。然而，解决煤矿开采的环境影响并确保必要的基础设施到位，对于成功采用该技术至关重要。随着世界继续寻求可持续能源解决方案，煤水混合物在未来的能源生产中可能发挥重要作用。