![]() ![]() ![]() The question of mixing energy requires some qualification. The field trials and subsequent interpretation of results provide positive answers to the first and second question. Questions are: the ability of the hovercraft to ''fly'' over an oil slick at high speed without displacing the oil out of the path, the potential for using the hovercraft to impart vertical mixing energy into the water column to aid in the dispersant process and, the ability to mount a suitable spray boom and obtain a uniform spray pattern across the swath width. The Speed of the model is measured in every case as the respond variable, Current (I) as the manipulated variable and Voltage (V) as the constant variable.Įvaluation of hovercraft for dispersant applicationĮnergy Technology Data Exchange (ETDEWEB)ĭickens, D Belore, R Buist, I Humphrey, BĪ series of field trials were carried out in Vancouver, Canada in July and August 1986 to determine whether or not hovercraft should be considered for dispersant application. They include water, grass, cement and tile. Since our prototype should be functioning on all kind of earth surface, our model also had been tested in different floor condition. The processing unit of this model is Arduino Uno by using the PSP2 (Playstation 2) as the controller. In this thesis, the weight, the thrust, the lift and the drag force of the model had been measured and the electrical and mechanical parts are also presented. The different designs of hovercraft model had been made and tested but only one of the models is presented in this paper. The purpose of this study is to design and investigate of a fully functional hovercraft, based on the studies that had been done. This paper presents the development process to fabricate a working hovercraft model. This article is based on a paper given to the Nederlands Vereniging Voor Ergonomie/Ergonomics Research Society joint conference at Noordwijk in Holland, 11-13 June, 1969.ĭevelopment of a working Hovercraft model Several of these problems are discussed, together with their possible solutions. This versatility and ability to operate in unusual or extreme environments has been accompanied by the problems of control and of protection of the occupants of the hovercraft from the hazards associated with these environments. Comparison with rival short range vehicles such as the helicopter and hydrofoil show that the hovercraft has become one of the most versatile forms of transport available. ![]() When creating your dashboards on the Arduino IoT Cloud you can link your widgets to multiple IoT projects for maximum flexibility.In just over a decade the hovercraft has progressed from first prototype to a successful commercial form of transport which also has the ability to penetrate many environments hitherto virtually inaccessible to manned vehicles. In the home: simply monitor your home automation systems, check your previous or actual energy consumption from the convenience of your sofa.Ĭreate your dashboards on from your computer or tablet and control them with IoT Cloud Remote from your iPhone. In the factory: constant visibility of the state of your manufacturing process status, with the ability to control your automation remotely. In the field: you can read the data from your soil sensors or start your irrigation system directly from anywhere. ![]() A powerful companion for the Arduino IoT Cloud – simply access, monitor and control your dashboards with a few screen taps.Īrduino IoT Cloud Remote can be very useful in a variety of use cases where you need to monitor or control regardless of the time or place: ![]()
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