external insulation

简明释义

外部绝缘

英英释义

例句

1.We decided to install external insulation on the walls to reduce heating costs during winter.

我们决定在墙壁上安装外部绝缘，以降低冬季的取暖费用。

2.Installing external insulation can significantly improve the comfort of your home.

安装外部绝缘可以显著提高您家居的舒适度。

3.With external insulation, the house stays cooler in summer and warmer in winter.

通过外部绝缘，房子在夏天保持更凉爽，在冬天保持更温暖。

4.The building was designed with external insulation to enhance energy efficiency.

这座建筑采用了外部绝缘设计，以提高能效。

5.The contractor recommended using external insulation for better thermal performance.

承包商建议使用外部绝缘以获得更好的热性能。

作文

In recent years, the importance of energy efficiency in buildings has gained significant attention. One of the most effective methods to enhance energy efficiency is through the use of external insulation. 外部绝缘 refers to the insulation applied to the exterior walls of a building. This approach not only improves thermal performance but also contributes to aesthetic enhancements and overall durability of the structure. The concept of external insulation is rooted in the principle of reducing heat loss in winter and preventing heat gain in summer. By applying a layer of insulating material on the outside of a building, we create a barrier that helps maintain a stable indoor temperature. This is particularly beneficial in regions with extreme weather conditions, where heating and cooling costs can be exorbitant. With 外部绝缘, buildings can achieve better energy efficiency ratings, which is increasingly important for homeowners and developers alike.Moreover, external insulation can significantly reduce the environmental impact of buildings. By decreasing the amount of energy required for heating and cooling, we also lower greenhouse gas emissions associated with energy production. This aligns with global efforts to combat climate change and promotes sustainable living practices. Additionally, buildings equipped with 外部绝缘 often exhibit improved comfort levels for occupants, as the consistent indoor temperatures lead to a more pleasant living environment.From a construction perspective, external insulation offers flexibility in terms of design. Various materials, such as polystyrene, polyurethane, and mineral wool, can be used to achieve the desired insulation properties. These materials can be finished with different cladding options, allowing architects and builders to create visually appealing facades without compromising on energy efficiency. The ability to customize the appearance of a building while enhancing its performance is a significant advantage of 外部绝缘.Furthermore, the installation of external insulation can be less disruptive compared to internal insulation methods. Since the work is done on the exterior, occupants can continue their daily activities without significant interruptions. This aspect is particularly advantageous for commercial buildings, where minimizing downtime is crucial for business operations. However, it is essential to consider proper installation techniques when applying external insulation. Poor installation can lead to issues such as moisture accumulation, which may compromise the integrity of the building. Therefore, it is vital to engage experienced professionals who understand the nuances of 外部绝缘 systems and ensure that all components are correctly installed. In conclusion, external insulation presents a viable solution for enhancing energy efficiency in buildings. Its benefits extend beyond just thermal performance; it also fosters sustainability, aesthetic flexibility, and occupant comfort. As we move toward a future that prioritizes energy conservation and environmental responsibility, embracing methods like 外部绝缘 will be crucial for both new constructions and retrofitting existing buildings. By investing in external insulation, we are not only improving our living spaces but also contributing to a healthier planet for future generations.

近年来，建筑物能源效率的重要性受到显著关注。提高能源效率的最有效方法之一是使用外部绝缘。外部绝缘是指应用于建筑外墙的绝缘材料。这种方法不仅提高了热性能，还对结构的美观和整体耐久性作出了贡献。外部绝缘的概念根植于减少冬季热损失和防止夏季热增益的原则。通过在建筑物外部施加一层绝缘材料，我们创建了一个有助于维持室内温度稳定的屏障。这在气候条件极端的地区尤其有利，因为供暖和制冷成本可能非常高。通过使用外部绝缘，建筑物可以获得更好的能源效率评级，这对于房主和开发商来说日益重要。此外，外部绝缘可以显著减少建筑物对环境的影响。通过降低供暖和制冷所需的能量，我们也降低了与能源生产相关的温室气体排放。这与全球应对气候变化的努力相一致，并促进可持续生活实践。此外，配备了外部绝缘的建筑通常为居住者提供了更好的舒适度，因为稳定的室内温度使居住环境更加宜人。从建筑的角度来看，外部绝缘在设计方面提供了灵活性。可以使用聚苯乙烯、聚氨酯和矿物棉等多种材料来实现所需的绝缘性能。这些材料可以用不同的外墙装饰选项进行修饰，使建筑师和承包商能够在不妥协能源效率的情况下创造视觉上吸引人的外立面。定制建筑外观的能力，同时增强其性能，是外部绝缘的一大优势。此外，安装外部绝缘可能比内部绝缘方法的干扰小。由于工作是在外部进行，居住者可以在没有重大干扰的情况下继续日常活动。这一方面对于商业建筑尤其重要，因为尽量减少停工时间对业务运营至关重要。然而，在应用外部绝缘时必须考虑正确的安装技术。安装不当可能导致诸如潮湿积聚等问题，从而危及建筑的完整性。因此，聘请经验丰富的专业人员了解外部绝缘系统的细微差别并确保所有组件正确安装是至关重要的。总之，外部绝缘为提高建筑物的能源效率提供了可行的解决方案。它的好处不仅限于热性能；它还促进了可持续性、美学灵活性和居住者舒适度。随着我们朝着优先考虑能源节约和环境责任的未来发展，接受像外部绝缘这样的方式对于新建建筑和改造现有建筑至关重要。通过投资于外部绝缘，我们不仅改善了我们的生活空间，还为未来几代人贡献了一个更健康的地球。