baking coal

简明释义

粘结煤

英英释义

例句

1.They transported baking coal from the mines to the manufacturing plant.

他们把焦煤从矿山运输到制造厂。

2.The steel mill needs a constant supply of baking coal to maintain its operations.

钢铁厂需要不断供应焦煤以维持其运营。

3.The factory uses baking coal to produce high-quality ceramic products.

工厂使用焦煤来生产高质量的陶瓷产品。

4.Using baking coal in the production process enhances the durability of the final product.

在生产过程中使用焦煤可以增强最终产品的耐用性。

5.During the winter, we rely on baking coal for heating our home.

在冬天，我们依靠焦煤来为我们的家取暖。

作文

The world of energy production has undergone significant changes in recent years, with a growing emphasis on sustainability and the reduction of carbon emissions. However, there are still many traditional methods of energy production that remain in use, one of which is the use of baking coal (焦煤). This type of coal is primarily utilized in the production of coke, which is essential for steel manufacturing. Understanding the role of baking coal in industrial processes is crucial for anyone interested in the energy sector or environmental science.Firstly, it is important to recognize what baking coal actually is. It is a type of bituminous coal that has specific properties making it suitable for coking. The coking process involves heating the coal in the absence of air, causing it to undergo thermal decomposition. This results in the formation of coke, a porous and carbon-rich material that is vital for the smelting of iron ore in blast furnaces. The quality of baking coal significantly affects the efficiency and quality of the coke produced, which in turn impacts the overall steel production process.The demand for steel remains high globally, driven by urbanization and infrastructure development. Consequently, the demand for baking coal continues to be strong. However, this reliance on fossil fuels raises environmental concerns. The extraction and burning of coal contribute to greenhouse gas emissions, which are a major driver of climate change. As a result, there is an ongoing debate about the future of baking coal in the context of a sustainable energy transition.In addition to environmental concerns, the mining of baking coal also poses social challenges. Many coal mining communities face economic instability as the industry evolves. As countries strive to reduce their carbon footprints, workers in these communities may find themselves without jobs or alternative sources of income. Therefore, it is essential to implement policies that not only address climate change but also support affected workers and promote economic diversification in coal-dependent regions.Innovations in technology may provide solutions for the future of baking coal. For instance, carbon capture and storage (CCS) technologies aim to capture carbon dioxide emissions from coal combustion and store them underground, potentially mitigating some environmental impacts. Additionally, research into cleaner alternatives for steel production, such as hydrogen-based methods, could lessen the dependency on baking coal in the long term.In conclusion, while baking coal plays a critical role in the steel industry, its continued use raises significant environmental and social issues. As we move towards a more sustainable future, it is imperative to balance the economic benefits of baking coal with the urgent need to combat climate change. Transitioning to cleaner energy sources and developing innovative technologies will be key to achieving this balance. Ultimately, understanding the complexities surrounding baking coal will empower us to make informed decisions about our energy future.

能源生产的世界在近年来经历了重大变化，越来越强调可持续性和减少碳排放。然而，仍然有许多传统的能源生产方法在使用，其中之一就是使用焦煤。这种类型的煤主要用于生产焦炭，而焦炭对于钢铁制造至关重要。理解焦煤在工业过程中的作用，对于任何对能源行业或环境科学感兴趣的人来说都是至关重要的。首先，重要的是要认识到焦煤究竟是什么。它是一种具有特定性质的烟煤，适合用于炼焦。炼焦过程涉及在无氧条件下加热煤，导致其发生热分解。这会形成焦炭，一种多孔且富含碳的材料，对于在高炉中冶炼铁矿石至关重要。焦煤的质量显著影响所生产焦炭的效率和质量，这反过来又影响整体的钢铁生产过程。全球对钢铁的需求依然强劲，推动城市化和基础设施发展。因此，对焦煤的需求持续强劲。然而，这种对化石燃料的依赖引发了环境担忧。煤的开采和燃烧会导致温室气体排放，而这些排放是气候变化的主要驱动因素。因此，关于在可持续能源转型背景下焦煤未来的辩论仍在继续。除了环境问题，焦煤的开采也带来了社会挑战。许多煤矿社区面临经济不稳定，因为行业正在演变。随着各国努力减少碳足迹，这些社区的工人可能会发现自己失去工作或没有其他收入来源。因此，实施不仅解决气候变化问题，还支持受影响工人并促进煤炭依赖地区经济多样化的政策至关重要。技术创新可能为焦煤的未来提供解决方案。例如，碳捕获与储存（CCS）技术旨在捕获煤燃烧产生的二氧化碳排放，并将其储存于地下，从而可能减轻一些环境影响。此外，研究清洁的钢铁生产替代方案，如基于氢的方法，可能会在长期内减少对焦煤的依赖。总之，虽然焦煤在钢铁工业中发挥着关键作用，但其持续使用引发了重大的环境和社会问题。在我们迈向更可持续的未来时，平衡焦煤的经济利益与应对气候变化的迫切需要至关重要。转向更清洁的能源来源和开发创新技术将是实现这一平衡的关键。最终，理解围绕焦煤的复杂性将使我们能够对我们的能源未来做出明智的决策。