CRISTESCU: Experimental identification of electrohydraulic servomechanisms with virtual instruments technique, Hidraulica Revue, no.3/2010, pp. DU: Dynamic Analysis of a New Type of Hydro-Viscous Drive Winch, Advanced materials Research, ISSN: 1662-8985, vols. ***,, last accessed on 15 September 2021. ALBOIU: Rotational Flow for Real Incompressible Fluids, Scientific Bulletin of the Technical University of Civil Engineering, Series: Mathematical Modelling in Civil Engineering, issue 3, pp. ANDERSEN: Analysis & Control of a Self-Contained Hydraulic Winch Drive, Symposium on Fluid Power & Motion Control, Proceeding of Bath/ASME, UK, September 12-14, 2018. JULA: Autonomous Underwater Vehicles - achievements and current trends, Scientific Bulletin of Navala Academy, Vol. BELEV: Information Characteristics of a Man-Operator for Ensuring the Vessel's Safety of Navigation, Journal ENC-GNSS, (2010). ![]() All program functions such as combining different media forms and knowledge resources are available. In this case, only three mathematic relations are used in the paper: the Cauchy momentum (convective form), the incompressible Euler relations and the pressure losses in the hydraulic and electro-hydraulic drive winch.ī.C. FESTO FluidSIM is a comprehensive software for creating, simulating, training and studying electropneumatic, electro-hydraulic, digital and electronic circuits. Moreover, the authors mention that all the schematics presented in this paper are modelled using FluidSim software from FESTO. Each schematic is presented along with its components. At the end of the paper, the authors perform an analysis of the electro-hydraulic systems for the drive winch, using a modelling and simulation software. Furthermore, there are presented comparative advantages of using this three types of drive winches. Further in the paper, the authors present the results of studying three simplified systems that use electric, hydraulic and electro-hydraulic driving solutions. The launch and recovery systems (LARS) using drive winches are installed on the stern of the research vessel. ![]() ![]() Furthermore, there is presented the importance of launch and recovery systems (LARS) and drive winches on the deck of a research vessel. In the Introduction section of the paper, the authors present the domains of the research vessel. The paper presents a study regarding electro-hydraulic control systems for drive winches, a structural part of LARS (Launch and Recovery Systems). This version was installed on in 64-bit Windows 10 and was successfully activated.System, drive, winch, hydraulic, sketch. The dida folder, which contains the program tutorials, has been separated due to its large size. This version does not need to be installed and will run by clicking on the fl_sim_h.exe file in the bin folder of the program. Provide a wide range of possibilities for communication between other productsĬlick here for full FESTO FluidSIM information. FluidSIM also provides a range of capabilities for communicating with other software through OPC / DDE.įeatures and specifications of FESTO FluidSIM softwareĬreate simulations for pneumatic and hydraulic As a result, FluidSIM can be used not only for use in the lesson, but also for its preparation and as a self-reading program. FluidSIM has an intuitive chart editor with distribution of all components, photo components, cross-sectional animation and video display. ![]() FESTO FluidSIM is a comprehensive software for creating, simulating, training and studying electropneumatic, electro-hydraulic, digital and electronic circuits.
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