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11.30 Kristian Thomas Luter Arregui - Dovetail.pdf

上传人: sec****ies 编号:734597 2025-07-26 13页 2.21MB

1、Thermal Management ExpoClearing the Runway to Electric Aviation by Removing Thermal ObstaclesP R E S E N T A T I O NSECTIONwww.dovetail.aero|21Who are we?Modular TechProprietary commonalityLow noise,high efficiency aerospace propulsion system integrated and certified by DovetailIntegrated Propulsion

2、 System DovePowerModular Battery system developed by Dovetail 230wh/kg at the pack level now,surpassing 280wh/kg in next versionAviation Proprietary Battery DovePackAI based energy system to accurately estimate battery charging state and optimize integration with fuel cell system Power&Energy Manage

3、ment System-DoveXAILightweight hydrogen system for onboard electricity generation Aerospace Hydrogen System HyDoveGEnIntegrated airframe aerodynamics and thermal management for superior performance and improving efficiencies over conventional designsEnhanced Proprietary AerodynamicsZero emissions El

4、ectric from battery to hydrogen for existing airframes1123452345World class electric aviation innovation1st Hydrogen-electric aviation powertrain in Au-NZ-South EUDovepack:Proprietary battery systemFirst immersion cooling system for aviationNow sold to third partiesP R E S E N T A T I O NSECTIONwww.

5、dovetail.aero|52The thermal challengesTurbomachine vs electrical systemConfidential information Property of Dovetail Electric Aviation 35%efficient 1MW of power=3 MW of heat High temperature&high speed heat80%heat removed by the exhaust to provide thrust(high exergy)Remaining heat removed by oil sys

6、tem,radiation&nacelle ventilationSource:NASA90%efficient(Electric propulsion)1 MW of power=100 kW of heat Low-temperature waste heat.Distributed throughout the systems Complex to be removedFull electric propeller testSource:Rolls-RoyceElectric Propulsion thermal management Liquid cooled Propulsion s

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本文介绍了Dovetail公司致力于电动航空领域的热管理技术创新。关键点如下: 1. **集成推进系统和电池**:Dovetail开发了高效的航空航天推进系统DovePower©,以及模块化电池系统DovePack©,当前能量密度为230wh/kg,下一代将超过280wh/kg。 2. **热管理挑战**:电动推进系统的热效率高达约90%,产生的热量较低,但分布广泛,难以移除。 3. **电池热管理**:锂电池的最佳工作温度为20-30°C,直接浸没冷却系统确保电池在所有操作条件下保持最佳温度范围。 4. **电气系统**:高效率的电气系统产生低温、低能量密度的热量,需要采用液体和空气冷却技术移除局部热点。 5. **燃料电池系统**:燃料电池效率约为50%,产生的热量需高效移除,特别是在高空、高温、高功率操作条件下。 文章强调了Dovetail在热管理技术上所取得的创新,如首次在航空领域使用沉浸冷却系统,以及开发高效的热交换系统,以应对电动航空的热挑战。
"电动航空的散热挑战有哪些?" "如何为电动飞机保持电池最佳温度?" "氢燃料电池在高温高海拔下如何散热?"
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