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首页> 外文会议>Advanced machinery technology symposium: advanced Naval machinery - an integrated solution >Next-Generation Thermal Management Architecture for Future Surface Combatants
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Next-Generation Thermal Management Architecture for Future Surface Combatants

机译:面向未来地面战斗人员的下一代热管理架构

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摘要

Thermal loads continue to grow on Navy Ships as more powerful, capable and denser electronics continue to be integrated within Command, Control, Computer and Communication (C4) systems. Next-generation systems like electromagnetic rails guns, solid state lasers, high powered microwave, Electronic Warfare Systems and Advanced Radar Systems will further strain the existing thermal management infrastructure with large increases in thermal loads. Legacy design practices for thermal systems are outdated and the size, weight and energy usage will scale, nearly linearly, with the required cooling capacity when these practices are followed. There are ample opportunities to rethink and optimize the thermal management architecture for future cooling loads. This paper discusses one such architecture, known as the intermediate temperature water system (ITWS), which can result in a dramatic reductions in size, weight and power usage of the shipboard thermal management system.
机译:随着功能更强大,功能更强大的电子设备继续集成在指挥,控制,计算机和通信(C4)系统中,热负荷在海军舰船上继续增长。下一代系统,例如电磁轨道炮,固态激光器,高功率微波,电子战系统和高级雷达系统,将使现有的热管理基础设施进一步紧张,同时热负荷将大大增加。遵循这些惯例,热力系统的传统设计惯例已过时,尺寸,重量和能源使用将以所需的冷却能力几乎线性地扩展。有足够的机会重新考虑和优化热管理架构,以应对未来的冷却负荷。本文讨论了一种称为中温水系统(ITWS)的体系结构,该体系结构可显着减少船载热管理系统的尺寸,重量和功耗。

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