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Energy Efficiency Comparison of Hydraulic Accumulators and Ultracapacitors

Jorge Leon-Quiroga, Brittany Newell, Mahesh Krishnamurthy, Andrés González-Mancera, Jose García

2020Energies25 citationsDOIOpen Access PDF

Abstract

Energy regeneration systems are a key factor for improving energy efficiency in electrohydraulic machinery. This paper is focused on the study of electric energy storage systems (EESS) and hydraulic energy storage systems (HESS) for energy regeneration applications. Two test benches were designed and implemented to compare the performance of the systems under similar operating conditions. The electrical system was configured with a set of ultracapacitors, and the hydraulic system used a hydraulic accumulator. Both systems were designed to have the same energy storage capacity. Charge and discharge cycle experiments were performed for the two systems in order to compare their power density, energy density, cost, and efficiency. According to the experimentally obtained results, the power density in the hydraulic accumulator was 21.7% higher when compared with the ultracapacitors. Moreover, the cost/power ($/Watt) ratio in the hydraulic accumulator was 2.9 times smaller than a set of ultracapacitors of the same energy storage capacity. On the other hand, the energy density in the set of ultracapacitors was 9.4 times higher, and the cost/energy ($/kWh) ratio was 2.9 times smaller when compared with the hydraulic accumulator. Under the tested conditions, the estimated overall energy efficiency for the hydraulic accumulator was 87.7%, and the overall energy efficiency for the ultracapacitor was 78.7%.

Topics & Concepts

Accumulator (cryptography)Hydraulic accumulatorEnergy storageSupercapacitorAutomotive engineeringEfficient energy useElectric potential energyEnergy recoveryHydraulic machineryPower densityEngineeringEnvironmental scienceSpecific energyElectrical engineeringEnergy (signal processing)Power (physics)Mechanical engineeringComputer scienceChemistryElectrodeMathematicsAlgorithmPhysicsPhysical chemistryStatisticsQuantum mechanicsElectrochemistryElectric and Hybrid Vehicle TechnologiesMicrogrid Control and OptimizationSupercapacitor Materials and Fabrication