building basin

简明释义

造船坞

英英释义

例句

1.In urban planning, a building basin can help manage stormwater runoff effectively.

在城市规划中，建筑盆地可以有效管理雨水径流。

2.The construction team excavated the area for the building basin to ensure proper drainage.

施工团队挖掘了建筑盆地的区域，以确保适当的排水。

3.We installed a filtration system in the building basin to keep the water clean.

我们在建筑盆地中安装了一个过滤系统，以保持水质清洁。

4.The city council approved the development of a building basin for environmental sustainability.

市议会批准了一个建筑盆地的开发，以实现环境可持续性。

5.The architect designed a new park with a large building basin to collect rainwater.

建筑师设计了一个新公园，里面有一个大的建筑盆地来收集雨水。

作文

The concept of a building basin is often overlooked in discussions about urban planning and architecture. A building basin refers to an area specifically designed to accommodate the foundational structures of buildings, ensuring stability and sustainability. This term encompasses not only the physical space but also the strategic planning that goes into creating a safe environment for construction. In modern cities, where space is at a premium, understanding the significance of a building basin becomes crucial. When we think about urban landscapes, we often picture towering skyscrapers and sprawling residential complexes. However, behind these impressive structures lies the importance of their bases, or building basins. These areas must be carefully designed to support the weight of the buildings while also managing water drainage and soil stability. For instance, in regions prone to flooding, a well-planned building basin can help mitigate the risks by allowing for proper drainage systems that channel excess water away from the foundation. Moreover, the design of a building basin involves more than just structural integrity; it also considers environmental impact. Sustainable architecture emphasizes the use of eco-friendly materials and practices, which can be integrated into the building basin design. This might include using permeable materials that allow rainwater to seep through, reducing runoff and promoting groundwater recharge. By incorporating green spaces and vegetation within the building basin, architects can create a more harmonious relationship between urban development and nature. In addition to environmental considerations, the aesthetic aspect of a building basin should not be neglected. A well-designed building basin can enhance the overall appearance of a building, creating a welcoming atmosphere for residents and visitors alike. Landscaping, lighting, and the arrangement of pathways can transform a basic foundation area into a vibrant community space. Furthermore, the role of technology in designing building basins cannot be ignored. Advanced software and modeling tools enable architects and engineers to simulate various scenarios, ensuring that the building basin can withstand natural disasters such as earthquakes or heavy storms. This proactive approach to design not only protects the buildings but also ensures the safety of their occupants. In conclusion, the building basin is a fundamental component of architectural design that deserves greater attention. It serves as the backbone of any structure, providing stability, sustainability, and aesthetic value. As urbanization continues to expand, the need for well-planned building basins will only grow, making it imperative for architects, city planners, and engineers to prioritize this aspect of construction. By doing so, we can build safer, more sustainable, and more beautiful urban environments for future generations.

“建筑基坑”的概念在城市规划和建筑讨论中常常被忽视。“建筑基坑”是指专门设计用于容纳建筑基础结构的区域，以确保稳定性和可持续性。这个术语不仅涵盖了物理空间，还包括创建安全施工环境所需的战略规划。在现代城市中，空间稀缺，理解“建筑基坑”的重要性变得至关重要。当我们想到城市景观时，常常会想象高耸的摩天大楼和广袤的住宅区。然而，在这些令人印象深刻的结构背后，基础或“建筑基坑”的重要性不容小觑。这些区域必须经过精心设计，以支撑建筑的重量，同时管理水排放和土壤稳定性。例如，在易发生洪水的地区，一个规划良好的“建筑基坑”可以通过允许适当的排水系统将多余的水引导远离基础，从而帮助减轻风险。此外，“建筑基坑”的设计不仅涉及结构完整性，还考虑环境影响。可持续建筑强调使用环保材料和实践，这可以融入“建筑基坑”的设计中。这可能包括使用透水材料，使雨水能够渗透，减少径流并促进地下水补给。通过在“建筑基坑”中融入绿色空间和植被，建筑师可以创造出与自然更和谐的关系。此外，“建筑基坑”的美学方面也不应被忽视。一个设计良好的“建筑基坑”可以增强建筑的整体外观，为居民和访客创造一个宜人的氛围。景观美化、照明和人行道的布置可以将一个简单的基础区域转变为一个充满活力的社区空间。此外，技术在设计“建筑基坑”中的作用也不可忽视。先进的软件和建模工具使建筑师和工程师能够模拟各种场景，确保“建筑基坑”能够承受自然灾害，如地震或强暴风雨。这种积极主动的设计方法不仅保护建筑物，还确保其居住者的安全。总之，“建筑基坑”是建筑设计的一个基本组成部分，值得更多关注。它作为任何结构的支柱，提供稳定性、可持续性和美学价值。随着城市化的不断扩展，对精心规划的“建筑基坑”的需求只会增加，这使得建筑师、城市规划者和工程师必须优先考虑这一建设方面。通过这样做，我们可以为未来几代人建设更安全、更可持续和更美丽的城市环境。