垂直设计工具的设计

Megan N Taylor, Asya Saldanli, A. Park
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引用次数: 8

摘要

技术的进步使得在拥挤的大都市地区部署城市空中交通(UAM)运输系统成为可能。UAM的一个关键要素是垂直机场,即电动垂直起降车辆(evtol)用于降落和起飞的基础设施。垂直机场设计工具(VDT)是为设计垂直机场的建筑公司开发的,用于评估垂直机场表面积和车辆吞吐量之间的操作权衡。采用随机蒙特卡罗模拟计算了不同垂直起降设计方案、安全风险和噪声约束下的车辆吞吐量。结果表明,垂直口面积每增加420 m2,吞吐量每小时增加1辆车。为此,车辆到达之间的时间也需要减少5分钟,以便发生更多的到达。
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Design of a Vertiport Design Tool
Advances in technology enable the deployment of an Urban Air Mobility (UAM) transportation system for congested metropolitan areas. A key element of UAM are vertiports, the infrastructure that electric vertical takeoff and landing vehicles (eVTOLs) use to land and take-off. A Vertiport Design Tool (VDT) was developed for use by architecture firms designing vertiports to evaluate operational trade-offs between vertiport surface area and vehicle throughput. A stochastic Monte Carlo simulation was developed to calculate vehicle throughput for different vertiport design alternatives, safety risk, and noise constraints. Results show that for every 420 m2 increase in vertiport surface area, the throughput increases by one vehicle per hour. For this, the time between vehicle arrivals also needs to decrease by 5 minutes for more arrivals to occur.
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