bottom supported fixed platform

简明释义

底部支撑的固定式平台;

英英释义

例句

1.The design of a bottom supported fixed platform must consider environmental impacts.

设计底部支撑固定平台时必须考虑环境影响。

2.The construction process for the bottom supported fixed platform requires careful planning and execution.

建设底部支撑固定平台的过程需要仔细的规划和执行。

3.Engineers are studying the stability of the bottom supported fixed platform during extreme weather events.

工程师们正在研究极端天气事件期间底部支撑固定平台的稳定性。

4.The oil rig was designed as a bottom supported fixed platform to withstand harsh marine conditions.

这座油气平台被设计为底部支撑固定平台，以承受恶劣的海洋条件。

5.A bottom supported fixed platform is often used in shallow waters for oil extraction.

在浅水区，通常使用底部支撑固定平台进行石油开采。

作文

In the realm of offshore engineering, the term bottom supported fixed platform refers to a type of structure that is anchored to the seabed. These platforms are designed to support various activities such as oil and gas extraction, renewable energy generation, and scientific research. The stability and durability of a bottom supported fixed platform make it an ideal choice for operations that require a solid foundation in challenging marine environments. The construction of a bottom supported fixed platform involves several critical stages, including site assessment, design, fabrication, and installation. Engineers conduct thorough geological surveys to ensure that the seabed can support the weight of the platform and withstand environmental forces such as waves and currents. Once the site is deemed suitable, detailed designs are created, taking into consideration factors such as water depth, expected loads, and environmental conditions. After the design phase, the actual construction of the platform begins. This typically occurs in a controlled shipyard environment where various components of the platform are fabricated. The materials used must be robust and resistant to corrosion, given the harsh conditions they will face once installed at sea. Steel is commonly used due to its strength and durability, but other materials may also be utilized depending on specific requirements. Once the platform components are ready, they are transported to the installation site. The installation process is complex and often requires specialized vessels equipped with cranes and other heavy-lifting equipment. The platform is carefully positioned over the designated location on the seabed, and then it is secured using piles or other anchoring methods to ensure its stability. One of the significant advantages of a bottom supported fixed platform is its ability to provide a stable working environment for personnel and equipment. Unlike floating structures, which can experience movement due to wave action, fixed platforms remain stationary, allowing for safer operations and more efficient production processes. This stability is crucial for tasks such as drilling, maintenance, and the transportation of resources. However, bottom supported fixed platforms are not without their challenges. They are typically limited to relatively shallow waters, usually up to around 500 feet deep. As water depths increase, alternative solutions such as floating platforms become more viable. Additionally, the installation and maintenance of these platforms can be costly and time-consuming, requiring substantial investment in both time and resources. In conclusion, the bottom supported fixed platform plays a vital role in the offshore industry, providing a reliable and stable base for various operations. Its design and construction are critical to ensuring safety and efficiency in challenging marine environments. As technology advances and the demand for offshore resources continues to grow, understanding the intricacies of bottom supported fixed platforms will be essential for engineers and stakeholders involved in this field. By leveraging innovative techniques and materials, the industry can continue to meet the challenges posed by offshore exploration and production effectively.

在海洋工程领域，术语底部支撑固定平台指的是一种锚定在海床上的结构。这些平台旨在支持各种活动，如石油和天然气的开采、可再生能源的生成和科学研究。底部支撑固定平台的稳定性和耐用性使其成为需要在具有挑战性的海洋环境中提供坚实基础的操作的理想选择。底部支撑固定平台的建设涉及几个关键阶段，包括现场评估、设计、制造和安装。工程师进行彻底的地质调查，以确保海床能够承受平台的重量并抵御波浪和水流等环境力量。一旦现场被认为合适，就会创建详细的设计，考虑水深、预期负载和环境条件等因素。在设计阶段之后，平台的实际建设开始。这通常在受控的船厂环境中进行，在那里平台的各个组件被制造出来。所使用的材料必须坚固且耐腐蚀，因为它们将在安装后面临恶劣的条件。由于其强度和耐用性，钢材通常被使用，但根据具体要求，其他材料也可能被利用。一旦平台组件准备就绪，它们就会被运输到安装地点。安装过程复杂，通常需要配备起重机和其他重型起重设备的专业船只。平台被小心地放置在海床上指定的位置，然后通过桩或其他锚固方法确保其稳定性。底部支撑固定平台的一个主要优点是它能够为人员和设备提供稳定的工作环境。与浮动结构不同，浮动结构可能由于波浪作用而发生移动，固定平台保持静止，从而使操作更安全，生产过程更高效。这种稳定性对于钻探、维护和资源运输等任务至关重要。然而，底部支撑固定平台并非没有挑战。它们通常仅限于相对较浅的水域，通常深度可达约500英尺。随着水深的增加，浮动平台等替代解决方案变得更具可行性。此外，这些平台的安装和维护可能成本高昂且耗时，需要大量的时间和资源投资。总之，底部支撑固定平台在海上工业中发挥着重要作用，为各种操作提供可靠和稳定的基础。其设计和建设对于确保在具有挑战性的海洋环境中的安全性和效率至关重要。随着技术的进步和对海上资源需求的持续增长，了解底部支撑固定平台的复杂性将对参与该领域的工程师和利益相关者至关重要。通过利用创新的技术和材料，行业可以继续有效应对海上勘探和生产带来的挑战。