induced draft

简明释义

诱导通风

英英释义

例句

1.During maintenance, we checked the induced draft (引导通风) system for any blockages or failures.

在维护期间，我们检查了induced draft（引导通风）系统是否有任何堵塞或故障。

2.The boiler operates efficiently due to the use of induced draft (引导通风) fans that help maintain optimal combustion conditions.

由于使用了induced draft（引导通风）风扇，锅炉高效运行，保持最佳燃烧条件。

3.The induced draft (引导通风) mechanism enhances the efficiency of the heating process by ensuring proper airflow.

通过确保适当的气流，induced draft（引导通风）机制提高了加热过程的效率。

4.In this power plant, the induced draft (引导通风) system is crucial for removing flue gases from the furnace.

在这个发电厂中，induced draft（引导通风）系统对于从炉子中排除烟气至关重要。

5.We installed an induced draft (引导通风) fan to improve air circulation in the industrial furnace.

我们安装了一个induced draft（引导通风）风扇，以改善工业炉的空气循环。

作文

The concept of induced draft is crucial in various engineering applications, especially in the fields of heating, ventilation, and air conditioning (HVAC) systems. An induced draft system utilizes a fan to create a negative pressure within a combustion chamber or a furnace, which helps in drawing air into the system. This process not only enhances the efficiency of combustion but also ensures that harmful gases are expelled effectively. In essence, the induced draft mechanism plays a vital role in maintaining optimal airflow, preventing backdrafts, and ensuring safety in industrial operations.One of the primary advantages of using an induced draft system is its ability to control the combustion process more effectively. By regulating the amount of air entering the combustion chamber, engineers can ensure that fuel burns more completely, leading to higher energy output and reduced emissions. This is particularly important in industries where environmental regulations are stringent, as it allows companies to comply with laws while also improving their operational efficiency.Moreover, the induced draft system is often more efficient than natural draft systems, which rely on buoyancy to move air. Natural draft systems can be affected by external factors such as wind and temperature changes, leading to inconsistent performance. In contrast, an induced draft system provides a more stable and reliable airflow, which is essential for processes that require precise control over combustion conditions.In addition to industrial applications, induced draft systems are also used in residential heating systems, such as gas furnaces and boilers. These systems help ensure that exhaust gases are safely vented outside, reducing the risk of carbon monoxide buildup in living spaces. Homeowners benefit from the enhanced safety and efficiency provided by induced draft technology, which contributes to lower energy bills and a reduced environmental footprint.However, it is important to note that the implementation of an induced draft system requires careful design and consideration. The size and capacity of the fan must be appropriately matched to the specific application to avoid issues such as excessive noise or energy consumption. Additionally, regular maintenance is essential to ensure the system operates efficiently over time. Dust and debris can accumulate in the fan and ductwork, hindering airflow and reducing overall performance.In conclusion, the use of induced draft systems represents a significant advancement in the field of combustion technology. Their ability to enhance efficiency, improve safety, and reduce emissions makes them an attractive option for both industrial and residential applications. As technology continues to evolve, we can expect further innovations in induced draft systems, leading to even greater improvements in energy efficiency and environmental sustainability. Understanding the principles behind induced draft is essential for engineers and technicians working in this field, as it allows them to design and implement systems that meet the demands of modern society while minimizing their impact on the environment.

‘诱导风’的概念在各种工程应用中至关重要，尤其是在供暖、通风和空调（HVAC）系统领域。‘诱导风’系统利用风扇在燃烧室或炉子内产生负压，这有助于将空气吸入系统。这一过程不仅提高了燃烧效率，还确保有害气体有效排出。本质上，‘诱导风’机制在维持最佳气流、防止回流以及确保工业操作安全方面发挥着重要作用。使用‘诱导风’系统的主要优点之一是能够更有效地控制燃烧过程。通过调节进入燃烧室的空气量，工程师可以确保燃料更完全地燃烧，从而提高能量输出并减少排放。这在环境法规严格的行业中尤为重要，因为它使公司能够遵守法律，同时提高其运营效率。此外，‘诱导风’系统通常比自然通风系统更高效，后者依赖浮力来移动空气。自然通风系统可能会受到外部因素如风和温度变化的影响，导致性能不稳定。相比之下，‘诱导风’系统提供了更稳定可靠的气流，这对需要精确控制燃烧条件的过程至关重要。除了工业应用，‘诱导风’系统还用于住宅供暖系统，如燃气炉和锅炉。这些系统有助于确保废气安全排放到外部，减少一氧化碳在居住空间内的积聚。业主从‘诱导风’技术提供的增强安全性和效率中受益，这有助于降低能源账单并减少环境足迹。然而，值得注意的是，实施‘诱导风’系统需要仔细设计和考虑。风扇的大小和容量必须与特定应用相匹配，以避免出现过大的噪音或能耗。此外，定期维护对于确保系统在长时间内高效运行至关重要。灰尘和杂物可能会在风扇和管道中积累，阻碍气流并降低整体性能。总之，使用‘诱导风’系统代表了燃烧技术领域的一项重大进展。它们提高效率、改善安全性和减少排放的能力使它们成为工业和住宅应用的理想选择。随着技术的不断发展，我们可以期待‘诱导风’系统的进一步创新，从而在能源效率和环境可持续性方面取得更大改善。理解‘诱导风’背后的原理对在这一领域工作的工程师和技术人员至关重要，因为这使他们能够设计和实施满足现代社会需求的系统，同时最小化对环境的影响。