S. Lindák scite author profile

S. Lindák

2Publications

4Citation Statements Received

1Citation Statement Given

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Slovak University of Agriculture

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Hydraulic Device for Simulation of Pressure Shocks

Lindák

Majdan

Janoško

et al. 2014

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This work is focused on the design of a hydraulic device on which simulations of pressure shocks can be performed. The hydraulic device was constructed to allow simulations of pressure shocks transferred directly in operating conditions because simulation programs for hydraulic accumulators have only theoretical values while simulation on the designed hydraulic device enables obtaining specific readings directly in operating conditions that can be set. At the first control measurement on the hydraulic device, there occurred pressure shocks generated by the hydraulic device itself, these pressure shocks being undesirable in hydraulic circuits. In order to eliminate pressure shocks in the circuit, a diaphragm accumulator was added to the hydraulic device and was used to verify the function of simulating pressure shocks and eliminating undesirable pressure shocks. During the second control measurement on the hydraulic device, a reduction of unwanted pressure shocks was shown with the help of added diaphragm accumulator, thus the function of the hydraulic device to simulate pressure shocks was confirmed, which may also refect practical application in hydraulic circuits of mobile machines.

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Performance parameters monitoring of the hydraulic system with bio-oil

Janoško¹,

Polonec²,

Lindák³

2014

Res. Agric. Eng.

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Janoško I., Polonec T., Lindák S., 2014. Performance parameters monitoring of the hydraulic system with biooil. Res. Agr. Eng., 60 (Special Issue): S37-S43.In environmental terms, hydraulic fluids used in the hydraulic system of municipal vehicles represent problems related to a potential leakage from the system into the environment and the subsequent contamination of groundwater and soil. More environment-friendly way is to use green hydraulic fluids that are biodegradable in accidents. This paper aims to investigate the possibilities of biodegradable oil application and its adaptation in the hydraulic systems of municipal vehicles by monitoring the impact of the bio-oil Mobil EAL 46 ESSO on the performance parameters as flow, efficiency, durability, etc. Hydraulic pump revolutions were measured using a non-contact sensor based on the principle of magnetic induction change. Method of tightness monitoring was used to achieve results for functionality and wear of the hydraulic system. During 600 h of the test period no significant deterioration of performance parameters was detected. Results are useful for companies involved in waste collection.

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S. Lindák

Hydraulic Device for Simulation of Pressure Shocks

Performance parameters monitoring of the hydraulic system with bio-oil

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