wall losses

简明释义

期损失

英英释义

例句

1.The architect designed the walls to minimize wall losses during winter months.

建筑师设计墙壁以最小化冬季的墙体损失。

2.To improve heating efficiency, we need to address the wall losses in this building.

为了提高供暖效率，我们需要解决这栋建筑中的墙体损失。

3.Thermal imaging can help identify areas with high wall losses.

热成像可以帮助识别高墙体损失的区域。

4.In our energy audit, we found that wall losses were significantly higher than expected.

在我们的能源审计中，我们发现墙体损失远高于预期。

5.The engineer calculated the wall losses to determine the efficiency of the insulation.

工程师计算了墙体损失以确定绝缘的效率。

作文

In the field of building construction and energy efficiency, understanding the concept of wall losses is crucial for architects, engineers, and homeowners alike. Wall losses refer to the amount of heat that escapes through the walls of a building, which can significantly impact heating and cooling costs. When a building is not properly insulated, the walls can become a major source of energy loss, leading to increased utility bills and discomfort for the occupants.To grasp the implications of wall losses, it is essential to consider how heat transfer occurs. Heat naturally flows from warmer areas to cooler ones, and in the case of a building, this means that heat generated by heating systems will escape through the walls if they are not adequately insulated. The rate of wall losses can vary depending on several factors, including the materials used in construction, the thickness of the walls, and the overall design of the building.For instance, traditional brick walls may have different thermal properties compared to modern insulated panels. A well-insulated wall can significantly reduce wall losses, keeping the interior temperature stable and comfortable. This is particularly important in regions with extreme weather conditions, where maintaining a consistent indoor climate is vital for both comfort and health.In addition to insulation, the orientation of a building also plays a role in managing wall losses. Buildings that face south may benefit from passive solar heating during the winter months, while those facing north might experience greater wall losses due to less sunlight exposure. Understanding these dynamics allows builders to design structures that minimize energy loss and enhance efficiency.Moreover, the impact of wall losses extends beyond individual buildings. In urban planning, addressing the cumulative effect of wall losses across multiple structures can lead to significant energy savings and reduced environmental impact. By promoting energy-efficient designs and materials, cities can lower their overall energy consumption, contributing to sustainability goals.Homeowners can take practical steps to mitigate wall losses as well. Simple actions such as sealing gaps and cracks, adding insulation, and using energy-efficient windows can dramatically reduce heat loss through walls. These measures not only improve comfort but also increase the value of the property by enhancing its energy efficiency.Furthermore, advancements in technology have introduced innovative solutions to combat wall losses. Smart home systems can monitor temperature fluctuations and adjust heating and cooling systems accordingly, ensuring that energy is used efficiently. Additionally, new materials such as aerogels and phase-change materials are being developed to provide even better insulation properties, further reducing wall losses.In conclusion, understanding wall losses is essential for anyone involved in building design, construction, or maintenance. By recognizing the factors that contribute to heat loss and implementing effective strategies to minimize it, we can create more comfortable, energy-efficient homes and buildings. As energy costs continue to rise and environmental concerns grow, addressing wall losses will play a critical role in shaping the future of sustainable architecture and urban planning.

在建筑施工和能源效率领域，理解墙体损失的概念对建筑师、工程师和房主来说至关重要。墙体损失是指热量通过建筑物墙壁逃逸的数量，这可能会显著影响供暖和制冷成本。当建筑物没有得到适当绝缘时，墙壁可能成为能源损失的主要来源，导致水电费增加和居住者的不适。要理解墙体损失的影响，必须考虑热传递是如何发生的。热量自然从温暖的区域流向较冷的区域，在建筑物的情况下，这意味着供暖系统产生的热量如果墙壁没有充分绝缘，就会通过墙壁逃逸。墙体损失的速率可能因多个因素而异，包括建筑材料、墙壁的厚度和建筑的整体设计。例如，传统的砖墙与现代绝缘面板可能具有不同的热性能。一个良好绝缘的墙可以显著减少墙体损失，保持室内温度稳定和舒适。这在极端天气条件的地区尤为重要，因为维持一致的室内气候对舒适和健康至关重要。除了绝缘之外，建筑物的朝向也在管理墙体损失中发挥作用。朝南的建筑可能在冬季受益于被动太阳能加热，而朝北的建筑可能由于阳光照射较少而经历更大的墙体损失。理解这些动态使建筑商能够设计出减少能源损失并提高效率的结构。此外，墙体损失的影响不仅限于单个建筑。在城市规划中，解决多栋建筑之间的墙体损失累积效应可以带来显著的能源节约和减少环境影响。通过推广节能设计和材料，城市可以降低整体能源消耗，从而有助于可持续发展目标。房主也可以采取实际措施来减轻墙体损失。简单的行动，如密封缝隙和裂缝、添加绝缘材料以及使用节能窗户，都可以显著减少通过墙壁的热量损失。这些措施不仅提高了舒适度，还通过增强能源效率增加了物业的价值。此外，技术的进步引入了创新的解决方案来对抗墙体损失。智能家居系统可以监测温度波动，并相应调整供暖和制冷系统，确保有效利用能源。此外，新材料如气凝胶和相变材料正在开发中，以提供更好的绝缘性能，进一步减少墙体损失。总之，理解墙体损失对于任何参与建筑设计、施工或维护的人来说都是必不可少的。通过认识到导致热量损失的因素并实施有效的策略来最小化它，我们可以创造出更舒适、更节能的住宅和建筑。随着能源成本的不断上升和环境问题的加剧，解决墙体损失将在塑造可持续建筑和城市规划的未来中发挥关键作用。