draught resistance

简明释义

牵引阻力

英英释义

例句

1.The insulation material used in this house contributes to its draught resistance.

这栋房子使用的绝缘材料有助于其防风性能。

2.To improve draught resistance, we installed weather stripping around all the doors.

为了提高防风性能，我们在所有门周围安装了密封条。

3.By improving draught resistance, we can create a more comfortable indoor environment.

通过改善防风性能，我们可以创造一个更舒适的室内环境。

4.Buildings with high draught resistance can significantly reduce heating costs during winter.

具有高防风性能的建筑可以显著降低冬季取暖成本。

5.The new window design features enhanced draught resistance, making homes more energy-efficient.

新窗户设计具有增强的防风性能，使家庭更加节能。

作文

In recent years, the concept of energy efficiency has gained significant attention in various sectors, particularly in building design and construction. One important aspect of energy efficiency is draught resistance, which refers to the ability of a building or structure to prevent unwanted air leaks that can lead to heat loss. This characteristic is crucial for maintaining a comfortable indoor environment while minimizing energy consumption. When we talk about draught resistance, we are essentially discussing the effectiveness of a building's envelope in keeping out cold air during winter and hot air during summer. A well-insulated building with high draught resistance can significantly reduce the need for heating and cooling systems, thereby saving energy and reducing utility bills. Furthermore, improved draught resistance contributes to a more stable indoor climate, which can enhance the comfort and well-being of the occupants.There are several factors that contribute to the draught resistance of a building. The materials used in construction play a vital role; for instance, double-glazed windows and insulated doors are known to provide excellent draught resistance. Additionally, the design of the building, including its shape and orientation, can influence how air flows around and into the structure. Proper sealing of gaps and cracks in walls, roofs, and foundations is also essential for achieving optimal draught resistance.To assess a building's draught resistance, various tests can be conducted, such as blower door tests, which measure the airtightness of a building. These tests help identify areas where air leakage occurs, allowing for targeted improvements. Homeowners and builders are increasingly aware of the importance of draught resistance and are taking steps to enhance it through retrofitting and using advanced construction techniques.Moreover, the benefits of draught resistance extend beyond energy savings. Improved air quality is another significant advantage, as effective sealing reduces the infiltration of outdoor pollutants and allergens. This is particularly beneficial for individuals with respiratory issues or allergies, as a well-sealed home can create a healthier living environment.In conclusion, draught resistance is a critical factor in the design and construction of energy-efficient buildings. By understanding and improving this aspect, we can not only lower energy costs but also enhance the comfort and health of occupants. As we move towards a more sustainable future, prioritizing draught resistance will undoubtedly play a key role in creating buildings that are both environmentally friendly and conducive to a high quality of life.

近年来，能源效率的概念在各个行业中得到了广泛关注，特别是在建筑设计和施工方面。其中一个重要方面是防风阻力，指的是建筑或结构防止不必要的空气泄漏的能力，这些泄漏可能导致热量损失。这一特性对于维持舒适的室内环境，同时减少能源消耗至关重要。当我们谈论防风阻力时，我们实际上是在讨论建筑外壳在冬季保持冷空气和夏季保持热空气的有效性。具有良好绝缘性能的建筑，配备高防风阻力，可以显著减少供暖和制冷系统的需求，从而节省能源和降低公用事业费用。此外，改善防风阻力有助于保持更稳定的室内气候，这可以增强居住者的舒适感和幸福感。影响建筑物防风阻力的因素有很多。建筑中使用的材料起着至关重要的作用；例如，双层玻璃窗和绝缘门被认为提供出色的防风阻力。此外，建筑的设计，包括其形状和朝向，也会影响空气如何流动到建筑内。对墙壁、屋顶和基础中的缝隙和裂缝进行适当密封，对于实现最佳的防风阻力也至关重要。为了评估建筑物的防风阻力，可以进行各种测试，例如风门测试，这种测试测量建筑的密闭性。这些测试帮助确定空气泄漏发生的区域，从而允许有针对性的改进。房主和建筑商越来越意识到防风阻力的重要性，并通过改造和使用先进的建筑技术来提升这一点。此外，防风阻力的好处不仅限于节能。改善空气质量是另一个显著的优势，因为有效的密封减少了户外污染物和过敏原的渗入。这对于有呼吸问题或过敏的人尤其有益，因为一个密封良好的家可以创造一个更健康的生活环境。总之，防风阻力是设计和建造节能建筑的重要因素。通过理解和改善这一方面，我们不仅可以降低能源成本，还可以增强居住者的舒适度和健康。随着我们走向一个更加可持续的未来，优先考虑防风阻力无疑将在创造既环保又有利于高生活质量的建筑中发挥关键作用。