cross compound installation
简明释义
并联复式装置
英英释义
例句
1.We encountered some unexpected issues during the cross compound installation phase.
在交叉复合安装阶段,我们遇到了一些意想不到的问题。
2.The engineers discussed the challenges of the cross compound installation in the new power plant.
工程师们讨论了新电厂中交叉复合安装的挑战。
3.During the project briefing, the manager emphasized the importance of a successful cross compound installation for efficiency.
在项目简报中,经理强调了成功的交叉复合安装对效率的重要性。
4.The cross compound installation technique can significantly reduce the overall footprint of the machinery.
这种交叉复合安装技术可以显著减少机械的整体占地面积。
5.Our team has extensive experience in cross compound installation for large-scale industrial systems.
我们的团队在大型工业系统的交叉复合安装方面有丰富的经验。
作文
In the modern world of engineering and technology, the term cross compound installation refers to a specific setup that combines multiple systems or components to enhance efficiency and performance. This concept is especially prevalent in power generation and mechanical engineering, where different types of machinery work together to achieve a common goal. Understanding the intricacies of cross compound installation can provide valuable insights into how complex systems operate and interact with one another.A cross compound installation typically involves the integration of two or more distinct systems, each designed for a particular function, yet working collaboratively. For instance, in the context of power plants, this might include the combination of steam turbines and gas turbines. The steam turbine generates electricity using steam produced from boiling water, while the gas turbine operates on natural gas combustion. When these two systems are linked in a cross compound installation, the overall efficiency of power generation can be significantly improved, as waste heat from one system can be utilized by the other.The benefits of implementing a cross compound installation are numerous. Firstly, it allows for a more efficient use of resources. By optimizing the interactions between different systems, engineers can reduce fuel consumption and lower operational costs. Secondly, such installations can lead to increased reliability and stability in energy output. When one system experiences fluctuations or downtime, the other can compensate, ensuring a continuous supply of energy.Moreover, a cross compound installation often results in a smaller environmental footprint. By maximizing the use of available energy and minimizing waste, these systems contribute to more sustainable practices in energy production. This is particularly important in today's context, where environmental concerns are at the forefront of global discussions.However, designing and implementing a cross compound installation comes with its challenges. Engineers must carefully consider the compatibility of different systems, ensuring that they can effectively communicate and operate together. This requires advanced knowledge of both mechanical and electrical engineering principles. Additionally, maintenance and monitoring become more complex, as technicians need to be skilled in handling multiple technologies simultaneously.In conclusion, the concept of cross compound installation represents a significant advancement in the field of engineering. By integrating various systems to work in harmony, we can achieve greater efficiency, reliability, and sustainability in energy production. As technology continues to evolve, the importance of understanding and mastering such concepts will only grow, paving the way for innovative solutions to meet the demands of our ever-changing world.
在现代工程和技术的世界中,术语交叉复合安装指的是一种特定的设置,它结合了多个系统或组件,以提高效率和性能。这个概念在发电和机械工程领域尤为普遍,其中不同类型的机械协同工作以实现共同目标。理解交叉复合安装的复杂性可以为我们提供关于复杂系统如何运作和相互作用的宝贵见解。交叉复合安装通常涉及将两个或多个独立系统整合在一起,每个系统设计用于特定功能,但又协同工作。例如,在电厂的背景下,这可能包括蒸汽涡轮机和燃气涡轮机的组合。蒸汽涡轮机利用由沸水产生的蒸汽发电,而燃气涡轮机则依靠天然气燃烧。当这两个系统在交叉复合安装中连接时,发电的整体效率可以显著提高,因为一个系统的废热可以被另一个系统利用。实施交叉复合安装的好处是众多的。首先,它允许更有效地利用资源。通过优化不同系统之间的相互作用,工程师可以减少燃料消耗,降低运营成本。其次,这种安装可以提高能源输出的可靠性和稳定性。当一个系统出现波动或停机时,另一个系统可以进行补偿,从而确保能源的持续供应。此外,交叉复合安装通常会导致更小的环境足迹。通过最大化可用能源的使用并最小化浪费,这些系统有助于更可持续的能源生产实践。这在当今的背景下尤为重要,因为环境问题已成为全球讨论的焦点。然而,设计和实施交叉复合安装也面临着挑战。工程师必须仔细考虑不同系统的兼容性,确保它们能够有效地沟通和协同工作。这需要对机械和电气工程原理的高级知识。此外,维护和监控变得更加复杂,因为技术人员需要具备同时处理多种技术的技能。总之,交叉复合安装的概念代表了工程领域的重要进展。通过整合各种系统以和谐工作,我们可以在能源生产中实现更大的效率、可靠性和可持续性。随着技术的不断发展,理解和掌握这样的概念的重要性只会增加,为满足我们不断变化的世界的需求铺平道路。
