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Design methodology for radial turbo expanders in mobile organic Rankine cycle applications

A.W. Costall, A. Gonzalez Hernandez, P.J. Newton and R.F. Martinez-Botas

Applied Energy, 2015, vol. 157, issue C, 729-743

Abstract: Future vehicles for clean transport will require new powertrain technologies to further reduce CO2 emissions. Mobile organic Rankine cycle systems target the recovery of waste heat in internal combustion engines, with the exhaust system identified as a prime source. This article presents a design methodology and working fluid selection for radial turbo expanders in a heavy-duty off-road diesel engine application. Siloxanes and Toluene are explored as the candidate working fluids, with the latter identified as the preferred option, before describing three radial turbine designs in detail. A small 15.5kW turbine design leads to impractical blade geometry, but a medium 34.1kW turbine, designed for minimum power, is predicted to achieve an isentropic efficiency of 51.5% at a rotational speed of 91.7kmin-1. A similar 45.6kW turbine designed for maximum efficiency yields 56.1% at 71.5kmin-1. This emphasizes the main design trade-off – efficiency decreases and rotational speed increases as the power requirement falls – but shows reasonable radial turbine efficiencies and thus practical turbo expanders for mobile organic Rankine cycle applications are realizable, even considering the compromised flow geometry and high speeds imposed at such small scales.

Keywords: Bottoming cycles; Mobile organic Rankine cycle; Radial turbine; Toluene; Turbo expander; Waste heat recovery (search for similar items in EconPapers)
Date: 2015
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (24)

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DOI: 10.1016/j.apenergy.2015.02.072

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