Add to ORKGThe Pressure Impulse test-rig uses the principal energetic advantages of displacementcontrolled systems versus valve-controlled systems. The use of digital-control technology enables a high dynamic in the pressure curve, according to the requirements of ISO6605. Accumulators, along with inertia, make energy recovery possible, as well as, enabling the compression energy to be re-used. As a result of this, there is a drastic reduction in operating costs. A simulation of the system before starting the project allows the development risks to be calculated and the physically achievable performance limits to be shown
Electro-hydrostatic Actuation Systems (EAS) successfully combine the advantages of electro-mechanica...
Laboratory shock tests involve the reproduction of simple one-time and repeated pulses of a certain ...
LecturePg. 85-90The prevailing use of expansion gases in distribution stations can be economically r...
The Pressure Impulse test-rig uses the principal energetic advantages of displacementcontrolled syst...
A key component of upcoming secondary controlled fluid-power systems for e.g. wave energy is the imp...
Speed and displacement variable pumps offer a degree of freedom for process control. As a certain op...
Hydraulic systems are widely used in mobile machines such as construction machinery and forest machi...
Within water and gas distribution networks dissipation valves are widely used in order to reduce the...
The paper introduces a new hydraulic system based on a constant pressure system with the aim to incr...
In spite of their high technical maturity, load sensing systems (LS) have system-inherent energy los...
One performance measure of hydraulic motion control is efficiency or as looked from a different angl...
Hydraulic motion control is traditionally done with servo or proportional valves. A digital hydrauli...
Laboratory shock tests involve the reproduction of simple one-time and repeated pulses of a certain ...
Digital Displacement pumps and motors are a new type of hydraulic machine, in which fluid commutatio...
The Digital Hydraulic Power Management System (DHPMS) is a solution based on the digital pump-motor ...
Electro-hydrostatic Actuation Systems (EAS) successfully combine the advantages of electro-mechanica...
Laboratory shock tests involve the reproduction of simple one-time and repeated pulses of a certain ...
LecturePg. 85-90The prevailing use of expansion gases in distribution stations can be economically r...
The Pressure Impulse test-rig uses the principal energetic advantages of displacementcontrolled syst...
A key component of upcoming secondary controlled fluid-power systems for e.g. wave energy is the imp...
Speed and displacement variable pumps offer a degree of freedom for process control. As a certain op...
Hydraulic systems are widely used in mobile machines such as construction machinery and forest machi...
Within water and gas distribution networks dissipation valves are widely used in order to reduce the...
The paper introduces a new hydraulic system based on a constant pressure system with the aim to incr...
In spite of their high technical maturity, load sensing systems (LS) have system-inherent energy los...
One performance measure of hydraulic motion control is efficiency or as looked from a different angl...
Hydraulic motion control is traditionally done with servo or proportional valves. A digital hydrauli...
Laboratory shock tests involve the reproduction of simple one-time and repeated pulses of a certain ...
Digital Displacement pumps and motors are a new type of hydraulic machine, in which fluid commutatio...
The Digital Hydraulic Power Management System (DHPMS) is a solution based on the digital pump-motor ...
Electro-hydrostatic Actuation Systems (EAS) successfully combine the advantages of electro-mechanica...
Laboratory shock tests involve the reproduction of simple one-time and repeated pulses of a certain ...
LecturePg. 85-90The prevailing use of expansion gases in distribution stations can be economically r...