plate type regenerator

简明释义

平板式回热器

英英释义

例句

1.We installed a plate type regenerator to enhance the thermal performance of our system.

我们安装了一个板式再生器，以提高系统的热性能。

2.In the new design, the plate type regenerator significantly reduced energy consumption.

在新设计中，板式再生器显著降低了能耗。

3.The engineer recommended a plate type regenerator for its efficiency in heat recovery.

工程师推荐使用板式再生器，因为它在热回收方面的效率很高。

4.Testing revealed that the plate type regenerator could recover up to 90% of waste heat.

测试显示，板式再生器能够回收高达90%的废热。

5.The plate type regenerator is essential for maximizing the efficiency of combined heat and power plants.

板式再生器对于最大化热电联产的效率至关重要。

作文

The concept of a plate type regenerator is essential in the field of thermal engineering. A plate type regenerator is a device used to recover waste heat from exhaust gases, which can then be reused to preheat incoming fluids. This process not only enhances energy efficiency but also contributes to reducing overall fuel consumption. By understanding how a plate type regenerator functions, engineers can design systems that minimize energy loss and environmental impact.In a typical application, a plate type regenerator consists of a series of plates arranged in a parallel configuration. These plates are made from materials that have high thermal conductivity, allowing for efficient heat transfer between the hot exhaust gases and the cooler incoming air or fluid. As the hot gases pass over one side of the plates, they transfer heat to the plates, which then conduct this heat to the cooler side where the incoming fluid flows. This counterflow design maximizes the temperature gradient and enhances the overall heat exchange efficiency.One of the significant advantages of using a plate type regenerator is its compact size compared to traditional heat exchangers. This compactness makes it easier to integrate into existing systems without requiring extensive modifications. Additionally, the modular nature of the plate type regenerator allows for easy scalability. If more heat recovery is needed, additional plates can be added without significant redesign.Moreover, the plate type regenerator is particularly effective in applications where space is limited, such as in power plants or industrial processes. For instance, in a gas turbine system, implementing a plate type regenerator can significantly improve the overall thermal efficiency of the cycle. By utilizing the waste heat from the exhaust, the system can produce more energy with the same amount of fuel, leading to lower operational costs and reduced emissions.However, there are challenges associated with the use of a plate type regenerator. One of the primary concerns is fouling, where deposits build up on the plates over time, reducing heat transfer efficiency. Regular maintenance and cleaning protocols are necessary to ensure optimal performance. Additionally, the initial investment cost for a plate type regenerator can be higher than other heat recovery options, but the long-term savings in energy costs often justify this expense.In conclusion, the plate type regenerator represents a critical technology in the pursuit of energy efficiency and sustainability. By effectively recovering waste heat, it not only improves the performance of thermal systems but also plays a vital role in reducing greenhouse gas emissions. As industries continue to seek innovative solutions to meet energy demands while minimizing environmental impacts, the importance of technologies like the plate type regenerator will only continue to grow. Understanding its principles and applications is crucial for engineers and professionals in the field, as it paves the way for more sustainable practices in energy management.

“板式再生器”的概念在热工程领域至关重要。“板式再生器”是一种用于回收废气中的废热的设备，这些废热可以再用于预热进入的流体。这个过程不仅提高了能效，还帮助减少整体燃料消耗。通过理解“板式再生器”的工作原理，工程师可以设计出最小化能量损失和环境影响的系统。在典型应用中，“板式再生器”由一系列平行排列的板组成。这些板由具有高热导率的材料制成，可以有效地在热废气和较冷的进气流体之间进行热传递。当热气体在板的一侧流过时，它们将热量传递给板，而后者又将这些热量传导到流动的冷侧进气流体。这种逆流设计最大化了温度梯度，提高了整体热交换效率。使用“板式再生器”的一个显著优势是，与传统热交换器相比，其体积较小。这种紧凑性使其更容易集成到现有系统中，而无需进行大量修改。此外，“板式再生器”的模块化特性允许轻松扩展。如果需要更多的热回收，可以在不显著重新设计的情况下添加额外的板。此外，“板式再生器”在空间有限的应用中尤其有效，例如在发电厂或工业过程中。例如，在燃气涡轮系统中，实施“板式再生器”可以显著提高循环的整体热效率。通过利用废气的废热，系统可以用相同数量的燃料产生更多的能量，从而降低运营成本和减少排放。然而，使用“板式再生器”也面临一些挑战。主要问题之一是污垢问题，随着时间的推移，沉积物会在板上堆积，降低热传递效率。因此，定期的维护和清洁程序是必要的，以确保最佳性能。此外，“板式再生器”的初始投资成本可能高于其他热回收选项，但长期的能源成本节省通常可以证明这一开支是合理的。总之，“板式再生器”代表了在追求能效和可持续性方面的关键技术。通过有效回收废热，它不仅提高了热系统的性能，还在减少温室气体排放方面发挥了重要作用。随着各行业继续寻求创新解决方案以满足能源需求，同时最小化环境影响，像“板式再生器”这样的技术的重要性只会不断增长。理解其原理和应用对于工程师和专业人士来说至关重要，因为这为能源管理中更可持续的实践铺平了道路。