THE EFFECT OF USE OF UNCONVENTIONAL POWER GENERATION SYSTEMS ON THE SAFETY OF NAVIGATION

Mihail-Vlad Vasilescu, F. Panaitescu, M. Panaitescu, A. Scupi, I. Voicu
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Abstract

By using a hybrid system formed from two unconventional energy devices large vertical wind turbines and FLETTNER Balloon and a conventional source of energy, ship owners can save a great deal of fuel, thus making substantial savings and not least, reducing pollution, making environmentally friendly ships. Unfortunately, the legislation in force does not allow ships to enter ports with unconventional energy sources. For this reason, unconventional energy sources will be used only during transoceanic crossings or during longer journeys. In this article major points are: 1) the influence of the FLETTNER helium Balloon on the manoeuvrability and road stability of the ship; 2) the influence of large Vertical wind turbines installed on the deck of the container ship on the manoeuvrability and road stability of the ship; 3) the calculation of the stability of the ship with the FLETTNER Balloon with helium coupled and with the 4 Vertical wind turbines installed on the ship's deck; 4) modelling the phenomena regarding the comparative analysis of the forces in the FLETTNER Balloon and in the large Vertical wind turbines. As results were obtained: 1) velocity and pressure distributions, forces and kinetic energies for the FLETTNER Balloon in various weather conditions, with winds of 10 and 20 m / s respectively from different directions: 00, 300, 600, 900 in various planes; 2) the distributions of speeds and pressures, forces and kinetic energies studied individually for each of the four large vertical wind turbines at winds of 10 m/s and 20 m/s respectively in various planes, segregated according to the position of port bow, starboard and stern port, starboard. This development was due to the growing demands to solve various problems at the industrial level, coming to the aid of many engineers who wanted an improvement in the equipment used, but did not have the financial support to perform experiments.
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非常规发电系统对航行安全的影响
通过使用由两个非常规能源设备——大型垂直风力涡轮机和FLETTNER Balloon和传统能源形成的混合系统,船东可以节省大量燃料,从而节省大量开支,尤其是减少污染,制造环保船舶。不幸的是,现行立法不允许船只使用非常规能源进入港口。因此,非常规能源只能在越洋或长途旅行中使用。本文的主要内容有:1)FLETTNER氦气球对船舶操纵性和航行稳定性的影响;2) 安装在集装箱船甲板上的大型垂直风力涡轮机对船舶操纵性和道路稳定性的影响;3) 使用装有氦气的FLETTNER气球以及安装在甲板上的4台垂直风力涡轮机对船舶的稳定性进行计算;4) 对FLETTNER气球和大型垂直风力涡轮机中的力的比较分析现象进行建模。结果表明:1)在不同天气条件下,不同方向的风速分别为10和20 m/s时,FLETTNER气球的速度和压力分布、力和动能:在不同的平面上分别为00、300、600、900;2) 分别在10米/秒和20米/秒的风速下,对四台大型垂直风力涡轮机在不同平面上的速度、压力、力和动能的分布进行了单独研究,并根据左舷船头、右舷和船尾左舷、右舷的位置进行了分离。这一发展是由于解决工业层面各种问题的需求不断增长,这得到了许多工程师的帮助,他们希望改进所使用的设备,但没有进行实验的资金支持。
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来源期刊
International Journal of Modern Manufacturing Technologies
International Journal of Modern Manufacturing Technologies Engineering-Industrial and Manufacturing Engineering
CiteScore
0.70
自引率
0.00%
发文量
15
期刊介绍: The main topics of the journal are: Micro & Nano Technologies; Rapid Prototyping Technologies; High Speed Manufacturing Processes; Ecological Technologies in Machine Manufacturing; Manufacturing and Automation; Flexible Manufacturing; New Manufacturing Processes; Design, Control and Exploitation; Assembly and Disassembly; Cold Forming Technologies; Optimization of Experimental Research and Manufacturing Processes; Maintenance, Reliability, Life Cycle Time and Cost; CAD/CAM/CAE/CAX Integrated Systems; Composite Materials Technologies; Non-conventional Technologies; Concurrent Engineering; Virtual Manufacturing; Innovation, Creativity and Industrial Development.
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