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| 內容簡介: |
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本书分五部分,共32 章。第一部分为综述篇,介绍了商用飞机发展现状与需求分析,探讨了商用飞机产品与技术的总体创新趋势。第二部分为产品创新篇,分别描述了未来支线飞机、未来窄体客机、未来宽体客机、超声速客机、高超声速客机、商用货运飞机和城市飞行器共七种类型商用飞机产品的发展概况、需求分析、国内外研发进展、潜在方案与指标、关键技术清单和发展路线图。第三部分为技术提升篇,介绍了商用飞机相关技术发展与提升的方向,国内外技术发展以及技术发展路线图。第四部分为技术融合篇,介绍了和商用飞机有关的系列交叉前沿技术,包括5G 技术、人工智能、数字孪生、VR/AR/MR 技术、区块链、石墨烯、超导技术、量子计算技术、航空仿生技术、脑机接口等。第五部分为展望篇,展望未来商用飞机产品与技术的发展方向。
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| 關於作者: |
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中国商飞北京民用飞机技术研究中心(简称“北研中心”),是2010年3月29日由中国商用飞机有限责任公司(简称“商飞公司”)出资,经中央编制委员会办公室批准成立的科研事业单位。北研中心是商飞公司面向未来开展商用大飞机预先研究的专业机构,是商飞公司重点建设的高层次人才创新创业基地,是绿色飞机原创技术策源地,发挥技术研发和市场需求“喇叭口”作用,着力开展未来商用大飞机的研究与论证,并推进研究成果快速向型号转化。北研中心科研领域涵盖未来商用大飞机技术总体论证、飞行物理与数字仿真、先进结构集成、先进系统集成、新能源动力、增材制造、人工智能、新技术探索应用等研究领域。
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| 目錄:
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第1 篇 综述
第1 章 商用飞机发展现状与需求分析···························································.2
1.1 全球航空运输总体情况····································································.3
1.1.1 全球航空运输发展现状····························································.3
1.1.2 未来民用飞机市场发展需求······················································.3
1.2 全球商用飞机产业发展情况分析························································.5
1.2.1 主制造商发展情况··································································.5
1.2.2 供应商发展情况·····································································.6
1.3 政府部门、监管机构标准和要求分析··················································.9
1.4 国外民用飞机发展规划和科技创新分析·············································.10
第2 章 商用飞机创新趋势········································································.14
2.1 商用飞机创新发展驱动力·······························································.15
2.2 未来产品创新趋势········································································.16
2.2.1 支线飞机创新趋势································································.16
2.2.2 干线飞机创新趋势································································.17
2.2.3 超声速飞机创新趋势·····························································.17
2.2.4 货机创新趋势······································································.18
2.3 未来技术创新趋势········································································.18
2.3.1 新能源技术创新趋势·····························································.19
2.3.2 新构型技术创新趋势·····························································.20
2.3.3 新材料、新工艺、新结构技术创新趋势·····································.21
2.3.4 智能化技术创新趋势·····························································.21
第2 篇 产品创新
第3 章 未来支线客机··············································································.23
3.1 发展概况····················································································.23
3.1.1 支线飞机市场现状································································.23
3.1.2 未来发展趋势······································································.24
3.2 需求分析····················································································.24
3.2.1 市场需求分析······································································.24
3.2.2 产品需求分析······································································.26
3.3 国内外研发进展···········································································.26
3.3.1 现有支线飞机情况································································.26
3.3.2 前沿概念方案······································································.27
3.4 潜在方案与特点···········································································.29
3.4.1 潜在方案A:支撑翼混合电推进支线飞机··································.29
3.4.2 潜在方案B:分布式混合电推进支线飞机··································.30
3.4.3 潜在方案C:氢能支线飞机····················································.30
3.5 关键技术清单··············································································.30
3.6 发展路线图·················································································.31
参考文献···························································································.32
第4章 未来窄体客机··············································································.33
4.1 发展概况····················································································.34
4.2 需求分析····················································································.34
4.2.1 市场需求分析······································································.34
4.2.2 性能需求分析······································································.36
4.3 国内外研发进展···········································································.36
4.3.1 现有窄体飞机情况································································.36
4.3.2 前沿概念方案······································································.37
4.4 潜在方案与特点···········································································.41
4.4.1 潜在方案A:支撑翼/混合电推进窄体飞机·································.41
4.4.2 潜在方案B:氢能窄体飞机····················································.42
4.4.3 潜在方案C:BWB 新能源飞机··
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