Simulation of Utilisation of Pressure Propagation for Increased Efficiency of Secondary Controlled Discrete Displacement Cylinders

Rico Hjerm Hansen; Anders Hedegaard Hansen; Torben Ole Andersen

doi:10.4028/www.scientific.net/AMM.233.3

Simulation of Utilisation of Pressure Propagation for Increased Efficiency of Secondary Controlled Discrete Displacement Cylinders

Rico Hjerm Hansen, Anders Hedegaard Hansen, Torben Ole Andersen

AAU Energy

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5 Citations (Scopus)

Abstract

A key component of upcoming secondary controlled fluid-power systems for e.g. wave energy is the implementation of discrete force control of cylinders by discrete variation of the cylinder displacement. However, as the discrete control is implemented by shifting between fixed system pressures in multiple cylinder chambers using on/off valves, the energy efficiency of the performed shifts is essential for the total system efficiency. However, pressure shifting on a volume, where the dynamics of pressure propagation in the pipelines is negligible have been proved to have an unavoidable minimum loss due to the compressibility of the fluid. This paper performs a simulation study, showing that an improved energy efficient shift may be implemented by utilising the pressure propagation in the line between valve and cylinder chamber.

Original language	English
Book series	Applied Mechanics and Materials
Volume	233
Pages (from-to)	3-6
ISSN	1660-9336
DOIs	https://doi.org/10.4028/www.scientific.net/AMM.233.3
Publication status	Published - 29 Nov 2012

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title = "Simulation of Utilisation of Pressure Propagation for Increased Efficiency of Secondary Controlled Discrete Displacement Cylinders",

abstract = "A key component of upcoming secondary controlled fluid-power systems for e.g. wave energy is the implementation of discrete force control of cylinders by discrete variation of the cylinder displacement. However, as the discrete control is implemented by shifting between fixed system pressures in multiple cylinder chambers using on/off valves, the energy efficiency of the performed shifts is essential for the total system efficiency. However, pressure shifting on a volume, where the dynamics of pressure propagation in the pipelines is negligible have been proved to have an unavoidable minimum loss due to the compressibility of the fluid. This paper performs a simulation study, showing that an improved energy efficient shift may be implemented by utilising the pressure propagation in the line between valve and cylinder chamber.",

keywords = "Digital Hydraulics, Discrete Displacement, Fluid Power, Hose, Pressure Propagation, PTO, Secondary Controlled System, Simulation, Wave Energy",

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AU - Hansen, Rico Hjerm

AU - Hansen, Anders Hedegaard

AU - Andersen, Torben Ole

PY - 2012/11/29

Y1 - 2012/11/29

N2 - A key component of upcoming secondary controlled fluid-power systems for e.g. wave energy is the implementation of discrete force control of cylinders by discrete variation of the cylinder displacement. However, as the discrete control is implemented by shifting between fixed system pressures in multiple cylinder chambers using on/off valves, the energy efficiency of the performed shifts is essential for the total system efficiency. However, pressure shifting on a volume, where the dynamics of pressure propagation in the pipelines is negligible have been proved to have an unavoidable minimum loss due to the compressibility of the fluid. This paper performs a simulation study, showing that an improved energy efficient shift may be implemented by utilising the pressure propagation in the line between valve and cylinder chamber.

AB - A key component of upcoming secondary controlled fluid-power systems for e.g. wave energy is the implementation of discrete force control of cylinders by discrete variation of the cylinder displacement. However, as the discrete control is implemented by shifting between fixed system pressures in multiple cylinder chambers using on/off valves, the energy efficiency of the performed shifts is essential for the total system efficiency. However, pressure shifting on a volume, where the dynamics of pressure propagation in the pipelines is negligible have been proved to have an unavoidable minimum loss due to the compressibility of the fluid. This paper performs a simulation study, showing that an improved energy efficient shift may be implemented by utilising the pressure propagation in the line between valve and cylinder chamber.

KW - Digital Hydraulics

KW - Discrete Displacement

KW - Fluid Power

KW - Hose

KW - Pressure Propagation

KW - PTO

KW - Secondary Controlled System

KW - Simulation

KW - Wave Energy

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DO - 10.4028/www.scientific.net/AMM.233.3

M3 - Journal article

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VL - 233

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EP - 6

JO - Applied Mechanics and Materials

JF - Applied Mechanics and Materials

ER -

Simulation of Utilisation of Pressure Propagation for Increased Efficiency of Secondary Controlled Discrete Displacement Cylinders

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