cross flow regenerator

简明释义

横流式回热器

英英释义

例句

1.Engineers often prefer a cross flow regenerator over other types due to its compact design.

工程师们通常更喜欢交叉流再生器而不是其他类型，因为它的紧凑设计。

2.The cross flow regenerator is essential for reducing the operational costs of the heating system.

对于降低供暖系统的运营成本，交叉流再生器是必不可少的。

3.The efficiency of the cross flow regenerator can be affected by the flow rates of the fluids involved.

涉及流体的流速会影响交叉流再生器的效率。

4.In our new design, we integrated a cross flow regenerator to optimize the thermal performance.

在我们的新设计中，我们集成了一个交叉流再生器以优化热性能。

5.The use of a cross flow regenerator in the heat recovery system significantly improves energy efficiency.

在热回收系统中使用交叉流再生器显著提高了能效。

作文

In modern engineering, energy efficiency is a critical consideration in the design of various systems. One significant innovation that has gained attention is the cross flow regenerator. This device plays an essential role in recovering waste heat from exhaust gases and utilizing it to preheat incoming air or fluids, thereby enhancing the overall efficiency of thermal systems. The principle behind a cross flow regenerator is relatively straightforward: it allows two fluids to exchange heat without mixing. This process occurs in a compact structure where one fluid flows horizontally while the other flows vertically, hence the term 'cross flow'.The importance of a cross flow regenerator can be seen in various applications, including power plants, HVAC systems, and industrial processes. For instance, in a power plant, the exhaust gases produced during combustion are typically at high temperatures. If these gases are released into the atmosphere without any heat recovery, significant amounts of energy are wasted. However, by implementing a cross flow regenerator, the heat from the exhaust can be transferred to the incoming air used for combustion, improving the thermal efficiency of the system.Moreover, the design of a cross flow regenerator allows for a smaller footprint compared to other heat recovery systems, making it ideal for space-constrained environments. The materials used in constructing these regenerators are often selected for their thermal conductivity and resistance to corrosion, ensuring durability and efficiency over time. As industries continue to seek sustainable solutions to reduce energy consumption and greenhouse gas emissions, the relevance of cross flow regenerators will only increase.In addition to energy recovery, cross flow regenerators also contribute to improved operational stability. By preheating the incoming air or fluid, they help maintain optimal temperatures within systems, reducing the likelihood of thermal shock and extending the lifespan of equipment. This aspect is particularly beneficial in industries where temperature fluctuations can lead to equipment failure or decreased performance.Furthermore, the versatility of cross flow regenerators allows them to be integrated into various types of systems, including those operating under different pressures and temperatures. This adaptability makes them suitable for a wide range of industries, from manufacturing to renewable energy.In conclusion, the cross flow regenerator represents a pivotal advancement in energy recovery technology. Its ability to enhance thermal efficiency, reduce energy waste, and improve system stability makes it an invaluable component in modern engineering designs. As the world moves towards more sustainable practices, understanding and implementing technologies like the cross flow regenerator will be crucial in achieving energy conservation goals and mitigating environmental impacts.

在现代工程中，能源效率是各种系统设计中的一个关键考虑因素。一项引起关注的重要创新是交叉流再生器。该设备在从废气中回收废热并利用其预热进入的空气或流体方面发挥着重要作用，从而提高热系统的整体效率。交叉流再生器的原理相对简单：它允许两种流体在不混合的情况下进行热交换。这个过程发生在一个紧凑的结构中，其中一种流体水平流动，而另一种流体垂直流动，因此称为“交叉流”。交叉流再生器的重要性可以在各种应用中看到，包括发电厂、暖通空调（HVAC）系统和工业过程。例如，在发电厂中，燃烧产生的废气通常具有高温。如果这些废气在没有任何热回收的情况下释放到大气中，将会浪费大量能量。然而，通过实施交叉流再生器，可以将废气中的热量转移到用于燃烧的进入空气中，从而提高系统的热效率。此外，交叉流再生器的设计使其相比其他热回收系统占用更小的空间，使其非常适合空间受限的环境。构建这些再生器所使用的材料通常选择其导热性和耐腐蚀性，以确保长期的耐用性和效率。随着各行业继续寻求可持续解决方案以减少能源消耗和温室气体排放，交叉流再生器的相关性只会增加。除了能源回收，交叉流再生器还促进了操作稳定性的提高。通过预热进入的空气或流体，它们有助于维持系统内的最佳温度，减少热冲击的可能性，从而延长设备的使用寿命。这一点在温度波动可能导致设备故障或性能下降的行业中尤为有利。此外，交叉流再生器的多功能性使其能够集成到不同压力和温度下运行的各种类型的系统中。这种适应性使其适用于从制造到可再生能源的广泛行业。总之，交叉流再生器代表了能源回收技术的一个关键进展。它增强热效率、减少能源浪费和改善系统稳定性的能力，使其成为现代工程设计中不可或缺的组成部分。随着世界向更可持续的做法迈进，理解和实施像交叉流再生器这样的技术将在实现节能目标和减轻环境影响方面至关重要。