desulphurizing

简明释义

英[/dɪˈsʌlfəraɪzɪŋ/]美[/dɪˈsʌlfəraɪzɪŋ/]

vt. 使脱硫

第 三 人 称 单 数 d e s u l p h u r i z e s

现 在 分 词 d e s u l p h u r i z i n g

过 去 式 d e s u l p h u r i z e d

过 去 分 词 d e s u l p h u r i z e d

英英释义

单词用法

同义词

反义词

例句

1.For the rate of desulphurizing, the rate of decarboning, the utilization rate of desulphurizing and the total utilization rate of desulphurizing, the paper deeply studied their influential factor .

从除硫、除碳、除硫利用率、除硫总利用率的影响因素等方面进行深入的研究分析。

2.For the rate of desulphurizing, the rate of decarboning, the utilization rate of desulphurizing and the total utilization rate of desulphurizing, the paper deeply studied their influential factor .

从除硫、除碳、除硫利用率、除硫总利用率的影响因素等方面进行深入的研究分析。

3.The efficiency of the desulphurization and the influence factor after optimization is tested, the desulphurizing efficiency can reach as high as to 90%, dust removal efficiency can reach 98%.

同时测定了优化后的系统的脱硫效率以及影响因素，它的脱硫效率高达90%，除尘效率可以达到98%。

4.Systematic study on the metallurgical properties of low-titania BF slag, such as "thickening", viscosity, temperature of meltability, stability and desulphurizing ability has been made.

文中系统地研究了高炉低钛渣的变稠、粘度、熔化性温度、稳定性和脱硫能力诸方面的冶金性能；

5.Based on thermodynamic function of hot metal predesulphurizing reaction and desulphurizing reaction rate, the conditions beneficial to hot metal predesulphurization was analyzed.

根据铁水预脱硫反应的热力学函数和脱硫反应速率，分析了有利于铁水预脱硫的条件。

6.Principle of desulphurizing organic sulfur and inorganic sulfur in coal by microbe, as well as current situation of study in China were presented.

介绍了微生物脱除煤中有机硫和无机硫的原理以及国内研究现状。

7.The physical properties of desulphurizing materials are usually different from coal particles in diameter and density.

由于喷入炉内的脱硫物质在粒径和密度上通常与煤颗粒不同，在流化区域上也存在差异。

8.The fume pollution and resource waste were very serious during desulphurizing of Moly concentrate.

精矿 焙烧脱硫过程中烟气污染和资源浪费严重。

9.The LY – 20 High Speed Rubber Desulphurizing Machine is an advanced machine with many uses .

型再生胶快速脱硫机是应用范围广泛的多功能先进设备。

10.The steel manufacturing process requires effective desulphurizing 脱硫 to improve the quality of the final product.

钢铁制造过程需要有效的脱硫以提高最终产品的质量。

11.In power plants, desulphurizing 脱硫 technologies are implemented to reduce sulfur emissions.

在发电厂中，实施脱硫技术以减少硫排放。

12.The desulphurizing 脱硫 agent used in this process is crucial for meeting environmental standards.

在这个过程中使用的脱硫剂对于满足环境标准至关重要。

13.Research on new desulphurizing 脱硫 methods is ongoing to enhance efficiency.

对新型脱硫方法的研究正在进行，以提高效率。

14.The desulphurizing 脱硫 process can significantly lower the production of harmful gases.

该脱硫过程可以显著降低有害气体的产生。

作文

In the modern world, industrial processes play a crucial role in our economy and daily lives. However, these processes often come with environmental consequences, particularly when it comes to air pollution. One of the significant pollutants produced during various industrial activities is sulfur dioxide (SO2), which can lead to acid rain and respiratory problems in humans. To mitigate these effects, industries have adopted several methods, one of which is desulphurizing (脱硫). This process involves the removal of sulfur compounds from fuels or emissions before they are released into the atmosphere. The importance of desulphurizing (脱硫) cannot be overstated. As countries strive to meet stricter environmental regulations, the demand for effective desulphurizing (脱硫) technologies has surged. These technologies not only help in reducing the environmental impact but also improve the overall efficiency of industrial operations. For instance, in coal-fired power plants, desulphurizing (脱硫) processes can significantly lower the amount of sulfur dioxide emitted during combustion, thereby contributing to cleaner air. There are various methods of desulphurizing (脱硫) that industries can employ. One common technique is flue gas desulfurization (FGD), where a sorbent, such as limestone, is used to react with sulfur dioxide in the flue gases. This reaction produces calcium sulfate, which can then be removed from the gas stream. Another method involves the use of chemical scrubbers that absorb sulfur compounds from the exhaust gases. Each of these methods has its advantages and challenges, but they all aim to achieve the same goal: reducing sulfur emissions. Aside from industrial applications, desulphurizing (脱硫) is also relevant in the context of transportation. The fuel used in vehicles, especially diesel, can contain high levels of sulfur, which contributes to air pollution. To combat this issue, many countries have implemented regulations that require fuels to be desulphurized (脱硫) before being sold to consumers. This shift towards low-sulfur fuels has led to a decrease in sulfur emissions from vehicles, showcasing the effectiveness of desulphurizing (脱硫) practices in improving air quality. Moreover, the advancements in desulphurizing (脱硫) technologies have opened up new avenues for research and development. Scientists and engineers are continually exploring innovative solutions to enhance the efficiency and cost-effectiveness of desulphurizing (脱硫) processes. This includes the development of new materials that can capture sulfur compounds more effectively or the implementation of integrated systems that combine desulphurizing (脱硫) with other pollution control measures. In conclusion, desulphurizing (脱硫) is an essential process in our efforts to reduce air pollution and protect the environment. With ongoing advancements in technology and increasing awareness of environmental issues, the future of desulphurizing (脱硫) looks promising. As we continue to innovate and implement effective solutions, we can work towards a cleaner and healthier planet for future generations.

在现代世界，工业过程在我们的经济和日常生活中发挥着至关重要的作用。然而，这些过程往往伴随着环境后果，尤其是在空气污染方面。各种工业活动中产生的一种主要污染物是二氧化硫（SO2），它会导致酸雨和人类呼吸问题。为了减轻这些影响，工业采用了几种方法，其中之一就是desulphurizing（脱硫）。这个过程涉及在燃料或排放物释放到大气之前去除硫化合物。 desulphurizing（脱硫）的重要性不容小觑。随着各国努力满足更严格的环境法规，对有效的desulphurizing（脱硫）技术的需求激增。这些技术不仅有助于减少环境影响，还提高了工业运营的整体效率。例如，在燃煤发电厂中，desulphurizing（脱硫）过程可以显著降低燃烧过程中排放的二氧化硫量，从而有助于改善空气质量。 工业可以采用多种desulphurizing（脱硫）方法。一种常见的技术是烟气脱硫（FGD），在该过程中，使用石灰石等吸附剂与烟气中的二氧化硫反应。这个反应生成硫酸钙，随后可以从气流中去除。另一种方法涉及使用化学洗涤器吸收废气中的硫化合物。这些方法各有优缺点，但都旨在实现同一目标：减少硫排放。 除了工业应用外，desulphurizing（脱硫）在交通运输领域也很相关。车辆使用的燃料，特别是柴油，可能含有高水平的硫，这会导致空气污染。为了解决这个问题，许多国家实施了法规，要求销售给消费者的燃料必须经过desulphurizing（脱硫）。这种向低硫燃料的转变导致车辆的硫排放减少，展示了desulphurizing（脱硫）实践在改善空气质量方面的有效性。 此外，desulphurizing（脱硫）技术的进步为研究和开发开辟了新的途径。科学家和工程师不断探索创新解决方案，以提高desulphurizing（脱硫）过程的效率和成本效益。这包括开发能够更有效捕获硫化合物的新材料，或实施结合desulphurizing（脱硫）与其他污染控制措施的综合系统。 总之，desulphurizing（脱硫）是我们减少空气污染和保护环境努力中的一个重要过程。随着技术的不断进步和对环境问题认识的提高，desulphurizing（脱硫）的未来看起来很有希望。随着我们不断创新和实施有效的解决方案，我们可以朝着为未来几代人创造一个更清洁、更健康的地球而努力。