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Modeling and simulation of hydrostatic transmission system with energy regeneration using hydraulic accumulator
Triet Hung HO, Kyoung Kwan AHN
The Journal of Mechanical Science and Technology, vol. 24, no. 5, pp.1163-1175, 2010
Abstract : A new hydraulic closed-loop hydrostatic transmission (HST) energy-saving system is proposed in this paper. The system improves the
efficiency of the primary power source. Furthermore, the system is energy regenerative, highly efficient even under partial load conditions.
It can work in either a flow or pressure coupling configuration, allowing it to avoid the disadvantages of each configuration. A
hydraulic accumulator, the key component of the energy regenerative modality, can be decoupled from or coupled to the HST circuit to
improve the efficiency of the system in low-speed, high-torque situations. The accumulator is used in a novel way to recover the kinetic
energy without reversion of fluid flow. Both variable displacement hydraulic pump /motors are used when the system operates in the
flow coupling configuration so as to enable it to meet the difficult requirements of some industrial and mobile applications. Modeling and
a simulation were undertaken with regard to testing the primary energy sources in the two configurations and recovering the energy potential
of the system. The results indicated that the low efficiency of traditional HSTs under partial load conditions can be improved by
utilizing the pressure coupling configuration. The round-trip efficiency of the system in the energy recovery testing varied from 32% to
66% when the losses of the load were taken into account.
Keyword : Hydrostatic transmission; Secondary control; Energy saving; Regenerative systems |
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