buttress type power house

简明释义

支墩式发电厂建筑物

英英释义

例句

1.The engineers decided to use a buttress type power house for the new dam project due to its structural stability.

工程师们决定在新的水坝项目中使用支撑型发电房，因为它的结构稳定性。

2.In our presentation, we highlighted the advantages of a buttress type power house in hydroelectric plants.

在我们的演示中，我们强调了在水电站中使用支撑型发电房的优点。

3.The construction team praised the design of the buttress type power house for its efficient use of materials.

施工队称赞支撑型发电房的设计，因为它高效利用了材料。

4.During the site visit, we observed an old buttress type power house that had been well-maintained over the years.

在现场考察中，我们观察到一座多年来维护良好的旧支撑型发电房。

5.The buttress type power house can withstand extreme weather conditions, making it ideal for remote locations.

由于能承受极端天气条件，支撑型发电房非常适合偏远地区。

作文

The design and construction of power houses are critical in the field of civil engineering, particularly when it comes to hydroelectric power generation. One specific type of structure that has gained prominence is the buttress type power house. This architectural form is characterized by its unique support system, which utilizes buttresses to provide stability and strength to the building. The use of a buttress type power house allows for larger spans and more open interior spaces, which is essential for housing heavy machinery and equipment necessary for power generation.In essence, a buttress type power house is designed to withstand significant lateral forces, such as those exerted by water pressure and wind. The buttresses act as external supports that distribute these forces evenly across the structure, thereby enhancing its durability. This design is particularly beneficial in areas where seismic activity is a concern, as the added support can help prevent structural failure during an earthquake.Furthermore, the aesthetic appeal of a buttress type power house cannot be overlooked. The visible buttresses create a striking visual impact, often blending harmoniously with the natural landscape. This is especially important in hydroelectric projects, where environmental considerations play a crucial role in the overall design and acceptance of the project. By incorporating beautiful yet functional elements, engineers can foster a sense of community support for such initiatives.Another advantage of the buttress type power house is its adaptability to different site conditions. Whether located in mountainous regions or flat plains, the design can be modified to meet the specific challenges posed by the environment. For example, in steep terrains, the buttresses can be extended or reinforced to accommodate the slope, ensuring that the structure remains stable and secure.Moreover, the construction process of a buttress type power house can be more efficient compared to traditional designs. The modular nature of the buttress system allows for quicker assembly and reduced labor costs. As a result, many energy companies are increasingly opting for this type of power house to enhance their operational efficiency and reduce project timelines.In conclusion, the buttress type power house represents a significant advancement in power house design, combining structural integrity, aesthetic appeal, and adaptability. Its ability to handle various environmental challenges while providing a visually appealing solution makes it an ideal choice for modern hydroelectric projects. As the demand for renewable energy continues to grow, the importance of innovative designs like the buttress type power house will only become more pronounced, paving the way for a sustainable future in energy production.

电站的设计和建造在土木工程领域至关重要，尤其是在水电发电方面。其中一种特定类型的结构逐渐受到重视，那就是支撑式发电厂。这种建筑形式的特点是其独特的支撑系统，利用支撑物为建筑提供稳定性和强度。使用支撑式发电厂可以实现更大的跨度和更开放的内部空间，这对容纳发电所需的重型机器和设备至关重要。从本质上讲，支撑式发电厂被设计用来承受显著的横向力，例如水压和风力施加的力。支撑物作为外部支撑，将这些力量均匀分布到整个结构上，从而增强其耐久性。这种设计在地震活动频繁的地区尤其有利，因为额外的支撑可以帮助防止地震期间的结构失效。此外，支撑式发电厂的美学吸引力也不容忽视。可见的支撑物创造了引人注目的视觉效果，通常与自然景观和谐融合。这在水电项目中尤为重要，因为环境考虑在整体设计和项目接受度中发挥着关键作用。通过结合美观且功能性的元素，工程师可以促进社区对此类计划的支持。支撑式发电厂的另一个优势是其对不同场地条件的适应性。无论位于山区还是平原，该设计都可以根据环境提出的具体挑战进行修改。例如，在陡峭的地形中，支撑物可以延伸或加固，以适应坡度，确保结构保持稳定和安全。此外，支撑式发电厂的施工过程相比传统设计可能更高效。支撑系统的模块化特性允许更快的组装和降低的人工成本。因此，许多能源公司越来越倾向于选择这种类型的发电厂，以提高运营效率并缩短项目时间。总之，支撑式发电厂代表了发电厂设计的重要进步，结合了结构完整性、美学吸引力和适应性。它能够处理各种环境挑战，同时提供视觉上吸引人的解决方案，使其成为现代水电项目的理想选择。随着可再生能源需求的不断增长，像支撑式发电厂这样的创新设计的重要性将愈加突出，为能源生产的可持续未来铺平道路。