hullborne powerplant
简明释义
排水状态的动力装置
英英释义
例句
1.A malfunction in the hullborne powerplant 船体动力装置 could lead to significant delays in shipping schedules.
如果hullborne powerplant 船体动力装置发生故障,可能会导致航运计划的重大延误。
2.The ship's hullborne powerplant 船体动力装置 provides efficient propulsion even in rough seas.
这艘船的hullborne powerplant 船体动力装置即使在恶劣海况下也能提供高效推进。
3.The crew received training on how to maintain the hullborne powerplant 船体动力装置 effectively.
船员接受了如何有效维护hullborne powerplant 船体动力装置的培训。
4.Engineers are testing the hullborne powerplant 船体动力装置 for its performance in various weather conditions.
工程师正在测试该hullborne powerplant 船体动力装置在不同天气条件下的性能。
5.The design of the hullborne powerplant 船体动力装置 allows for better fuel efficiency.
该hullborne powerplant 船体动力装置的设计使燃油效率更高。
作文
In recent years, the maritime industry has witnessed significant advancements in technology, particularly in the development of efficient energy systems. One such innovation is the concept of a hullborne powerplant, which refers to a power generation system that is integrated into the hull of a vessel. This approach not only optimizes space but also enhances the overall performance of the ship. The hullborne powerplant is designed to harness energy from various sources, including renewable resources like wind and solar, as well as traditional fuels. The primary advantage of a hullborne powerplant is its ability to reduce the weight and complexity of conventional power systems. By incorporating the power generation units directly within the hull, shipbuilders can create more streamlined designs that improve hydrodynamics and fuel efficiency. This is crucial in an era where environmental regulations are becoming increasingly stringent, and the demand for greener alternatives is on the rise. As a result, vessels equipped with a hullborne powerplant are better positioned to meet these challenges while also providing cost savings over time.Moreover, a hullborne powerplant can significantly enhance the operational capabilities of a ship. For instance, by generating power directly from the hull, vessels can operate various onboard systems more efficiently, including navigation, communication, and propulsion. This integration leads to a reduction in the overall energy consumption of the ship, allowing it to travel longer distances without the need for frequent refueling. Furthermore, the compact design of a hullborne powerplant means that more space can be allocated for cargo or passenger amenities, making the vessel more versatile and profitable.The implementation of a hullborne powerplant also brings about exciting opportunities for research and development. Engineers and scientists are continually exploring new materials and technologies that can further enhance the efficiency and sustainability of these power systems. For example, advancements in battery technology could allow for better energy storage solutions, enabling ships to utilize energy generated during favorable conditions and use it when needed most.In conclusion, the hullborne powerplant represents a significant leap forward in maritime engineering. Its potential to improve efficiency, reduce environmental impact, and enhance the overall functionality of vessels makes it an attractive option for shipbuilders and operators alike. As the industry continues to evolve, the adoption of innovative solutions like the hullborne powerplant will be essential in shaping the future of maritime transportation. By embracing these advancements, we can look forward to a more sustainable and efficient shipping industry that meets the needs of both businesses and the environment.
近年来,海事行业见证了技术的重大进步,特别是在高效能源系统的发展方面。其中一个创新概念是hullborne powerplant(船体发电厂),它指的是集成在船只船体中的发电系统。这种方法不仅优化了空间,还增强了船舶的整体性能。hullborne powerplant旨在利用各种来源的能量,包括可再生资源如风能和太阳能,以及传统燃料。hullborne powerplant的主要优势在于能够减少传统动力系统的重量和复杂性。通过将发电单元直接集成到船体中,造船商可以创造出更流线型的设计,从而改善水动力学和燃油效率。在环保法规日益严格、对更绿色替代品需求上升的时代,这一点至关重要。因此,配备hullborne powerplant的船舶更有能力应对这些挑战,同时也能在长期内节省成本。此外,hullborne powerplant还可以显著增强船舶的操作能力。例如,通过直接从船体发电,船只可以更高效地运行各种船上系统,包括导航、通信和推进。这种集成导致船舶的整体能耗降低,使其能够在不需要频繁加油的情况下行驶更长的距离。此外,hullborne powerplant的紧凑设计意味着可以为货物或乘客设施分配更多空间,使船舶更加多功能和盈利。实施hullborne powerplant也带来了研究和开发的激动人心的机会。工程师和科学家们不断探索新材料和技术,以进一步提高这些电力系统的效率和可持续性。例如,电池技术的进步可能允许更好的能量存储解决方案,使船舶能够在有利条件下生成的能量并在最需要时使用。总之,hullborne powerplant代表了海洋工程的重大飞跃。它改善效率、减少环境影响和增强船舶整体功能的潜力使其成为造船商和运营者的有吸引力的选择。随着行业的不断发展,采用像hullborne powerplant这样的创新解决方案对于塑造海运运输的未来至关重要。通过接受这些进步,我们可以期待一个更可持续和高效的航运业,以满足企业和环境的需求。
