Enhancing hovercraft energy performance: Adaptive lift fan control for optimal efficiency

IF 7.1 2区 工程技术 Q1 ENERGY & FUELS
Sajed Rezaei, Berke Ogulcan Parlak, Huseyin Ayhan Yavasoglu
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引用次数: 0

Abstract

As amphibious vehicles, hovercrafts glide over nearly frictionless surfaces thanks to a unique lift fan design that counteracts gravitational forces. However, this design leads to high energy consumption. Typically, hovercrafts operate their lift fan at maximum capacity or adjust it manually. This paper introduces an adaptive control method to mitigate a significant drawback of hovercrafts, which is excessive energy consumption stemming from their unique lift fan design. It discusses a methodology for identifying the most energy-efficient design, based on computational fluid dynamics analysis. Hovering and propulsion principles are addressed in detail to demonstrate the forces acting on the hovercraft and the motor selection process. This study’s pioneering integration of adaptive and hysteresis controls for the lift fan represents a significant advancement in hovercraft energy management, offering a novel approach that markedly enhances operational efficiency and environmental sustainability. The paper proposes and evaluates various drive cycles to assess the control method’s effectiveness and environmental impact. The results show that this approach can reduce energy use and, as a result, carbon emissions by up to 48.3 %.

提高气垫船的节能性能:自适应升力风扇控制,实现最佳效率
作为水陆两用车,气垫船利用独特的升力风扇设计抵消重力,在几乎无摩擦的表面上滑行。然而,这种设计导致高能耗。通常情况下,气垫船的升力风扇以最大功率运行或手动调节。本文介绍了一种自适应控制方法,以减轻气垫船的一个重要缺点,即独特的升力风扇设计导致的过高能耗。它基于计算流体动力学分析,讨论了一种确定最节能设计的方法。报告详细论述了气垫船的悬停和推进原理,展示了作用在气垫船上的力和电机选择过程。这项研究开创性地整合了升力风扇的自适应和滞后控制,代表了气垫船能源管理的重大进步,提供了一种显著提高运行效率和环境可持续性的新方法。论文提出并评估了各种驱动循环,以评估控制方法的有效性和对环境的影响。结果表明,这种方法可以减少能源消耗,从而减少高达 48.3% 的碳排放量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Sustainable Energy Technologies and Assessments
Sustainable Energy Technologies and Assessments Energy-Renewable Energy, Sustainability and the Environment
CiteScore
12.70
自引率
12.50%
发文量
1091
期刊介绍: Encouraging a transition to a sustainable energy future is imperative for our world. Technologies that enable this shift in various sectors like transportation, heating, and power systems are of utmost importance. Sustainable Energy Technologies and Assessments welcomes papers focusing on a range of aspects and levels of technological advancements in energy generation and utilization. The aim is to reduce the negative environmental impact associated with energy production and consumption, spanning from laboratory experiments to real-world applications in the commercial sector.
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