maximum practicable height

简明释义

最大实际高度

英英释义

例句

1.Local regulations specify the maximum practicable height 最大可行高度 for structures near the airport to avoid interference with flight paths.

当地法规规定，机场附近的建筑物的最大可行高度最大可行高度以避免干扰航路。

2.The construction team was informed that the maximum practicable height 最大可行高度 for this site is limited due to geological conditions.

施工团队被告知，由于地质条件，此地点的最大可行高度最大可行高度受到限制。

3.The engineers determined that the maximum practicable height 最大可行高度 for the building would be 50 stories due to zoning laws.

工程师们确定，该建筑的最大可行高度最大可行高度为50层，因受到区域法规的限制。

4.In terms of safety, we must adhere to the maximum practicable height 最大可行高度 established by the fire department.

在安全方面，我们必须遵守消防部门规定的最大可行高度最大可行高度。

5.The architect proposed a design that respects the maximum practicable height 最大可行高度 while maximizing natural light.

建筑师提出了一种设计，尊重最大可行高度最大可行高度的同时，最大化自然光的利用。

作文

In the realm of engineering and architecture, the term maximum practicable height refers to the tallest structure that can be built considering various constraints such as materials, technology, safety regulations, and environmental factors. Understanding this concept is crucial for architects and engineers as it influences the design and feasibility of skyscrapers, bridges, and other monumental constructions. The maximum practicable height is not merely a theoretical limit; it is a practical guideline that ensures structures are safe, functional, and sustainable.When designing a skyscraper, for instance, architects must consider the maximum practicable height based on the materials used. Steel and concrete have specific load-bearing capacities, which dictate how high a building can rise without compromising its structural integrity. Advances in materials science have allowed for taller buildings than ever before, but there are still limits. For example, while a building may technically be able to reach a certain height, factors such as wind resistance and seismic activity must also be taken into account. This is where the concept of maximum practicable height becomes vital.Moreover, local regulations and zoning laws play a significant role in determining the maximum practicable height of a building. Many cities have height restrictions to preserve historical views, maintain aesthetic standards, or protect the environment. These regulations ensure that new constructions do not overshadow existing buildings or disrupt the skyline. Therefore, architects must navigate these legal frameworks while pushing the boundaries of what is possible.Environmental considerations are another critical aspect of determining the maximum practicable height. Taller buildings can have a more substantial impact on local ecosystems and weather patterns. For instance, a skyscraper can alter wind currents and affect the microclimate of an area, potentially leading to increased energy consumption for heating and cooling. As sustainability becomes increasingly important in construction, understanding the maximum practicable height in relation to environmental impact is essential.Furthermore, the technological advancements in construction methods have also influenced the maximum practicable height. With the advent of innovative engineering techniques such as modular construction and advanced scaffolding systems, builders can achieve heights that were previously unattainable. However, these technologies also come with their own set of challenges and limitations. For example, while they may allow for greater heights, they must also ensure that safety standards are met throughout the construction process.In conclusion, the concept of maximum practicable height encompasses a multitude of factors that must be considered in the fields of architecture and engineering. It is a dynamic figure that evolves with advancements in technology, changes in regulations, and shifts in environmental awareness. By understanding the maximum practicable height, professionals can create structures that not only push the limits of design but also respect the safety and sustainability of our built environment. As we continue to innovate and explore new frontiers in construction, the importance of this concept will only grow, guiding us toward a future where we can create even more remarkable structures without compromising on safety or environmental responsibility.

在工程和建筑领域，短语maximum practicable height指的是考虑到材料、技术、安全法规和环境因素等各种限制条件下可以建造的最高结构。理解这一概念对建筑师和工程师至关重要，因为它影响着摩天大楼、桥梁和其他宏伟建筑的设计和可行性。maximum practicable height不仅仅是一个理论上的限制；它是一个实用的指导方针，确保结构安全、功能齐全和可持续。例如，在设计摩天大楼时，建筑师必须根据所使用的材料考虑maximum practicable height。钢材和混凝土具有特定的承载能力，这决定了建筑可以建造的高度，而不危及其结构完整性。材料科学的进步使得比以往任何时候都能建造更高的建筑，但仍然存在限制。例如，虽然一座建筑在技术上可以达到某个高度，但风阻和地震活动等因素也必须考虑在内。这就是maximum practicable height概念变得至关重要的地方。此外，当地法规和区域法律在确定建筑的maximum practicable height方面也发挥着重要作用。许多城市设有高度限制，以保护历史景观、维护美学标准或保护环境。这些法规确保新建筑不会遮蔽现有建筑或破坏天际线。因此，建筑师必须在推动可能性的边界时，驾驭这些法律框架。环境因素是确定maximum practicable height的另一个关键方面。更高的建筑可能对当地生态系统和天气模式产生更大的影响。例如，一座摩天大楼可以改变风流，并影响一个地区的小气候，可能导致供暖和制冷的能耗增加。随着可持续性在建筑中的重要性日益增强，理解maximum practicable height与环境影响之间的关系变得至关重要。此外，建筑方法的技术进步也影响了maximum practicable height。随着模块化建筑和先进脚手架系统等创新工程技术的出现，建筑商能够达到以前无法实现的高度。然而，这些技术也带来了自身的一系列挑战和局限性。例如，虽然它们可能允许更高的建筑，但在整个施工过程中也必须确保满足安全标准。总之，maximum practicable height的概念涵盖了建筑和工程领域中必须考虑的多种因素。这是一个动态的数字，随着技术的进步、法规的变化和环境意识的转变而不断演变。通过理解maximum practicable height，专业人员可以创造出不仅突破设计极限，而且尊重我们建筑环境的安全性和可持续性的结构。随着我们继续创新和探索建筑的新前沿，这一概念的重要性只会增加，引导我们走向一个在不妥协安全或环境责任的情况下，能够创造出更加卓越建筑的未来。