Numerical analysis of energy recovery system for turbocharged internal combustion engines via a parallel compounding turbine

Increasing energy efficiency requirements mandatory ask for optimizing energy utilization in many devices, which include internal combustion engines. One of the most investigated subjects is the energy recovery from the exhaust, such as turbo-compound systems, which usually consist in a secondary tu...

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Published in	Journal of physics. Conference series Vol. 2385; no. 1; pp. 12070 - 12083
Main Authors	Frigo, Stefano, Francesconi, Marco, Sani, Luca, Antonelli, Marco
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.12.2022
Subjects	Diesel engines Electric generators Energy Energy recovery systems Energy utilization Exhaust systems Gate valves Internal combustion engines Mass flow rate Numerical analysis Numerical models Physics Power management Superchargers Turbines
Online Access	Get full text
ISSN	1742-6588 1742-6596
DOI	10.1088/1742-6596/2385/1/012070

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Abstract	Increasing energy efficiency requirements mandatory ask for optimizing energy utilization in many devices, which include internal combustion engines. One of the most investigated subjects is the energy recovery from the exhaust, such as turbo-compound systems, which usually consist in a secondary turbine located afterward the turbocharger. Here an alternative arrangement is proposed and analysed via a numerical model. The recovery turbine works in parallel to the main turbine and uses the gasses which would be otherwise wasted through the waste-gate valve, once the set-point boost pressure is reached. The reference case analysed is a 12.4L turbocharged diesel engine, commonly used in marine, road and light railroad applications, with a nominal power of 380kW. The results showed that an overall 8% of power can be gained, without nor increasing the fuel mass flow rate, neither requiring significant modifications to the baseline engine. Moreover, in the case of the recovery system failure, the operation of the engine is not affected, thus resulting in no engine availability reduction. This work also shows a feasible way to convert the mechanical energy delivered by the recovery turbine into electrical energy, by making use of a high-speed electrical generator.
AbstractList	Increasing energy efficiency requirements mandatory ask for optimizing energy utilization in many devices, which include internal combustion engines. One of the most investigated subjects is the energy recovery from the exhaust, such as turbo-compound systems, which usually consist in a secondary turbine located afterward the turbocharger. Here an alternative arrangement is proposed and analysed via a numerical model. The recovery turbine works in parallel to the main turbine and uses the gasses which would be otherwise wasted through the waste-gate valve, once the set-point boost pressure is reached. The reference case analysed is a 12.4L turbocharged diesel engine, commonly used in marine, road and light railroad applications, with a nominal power of 380kW. The results showed that an overall 8% of power can be gained, without nor increasing the fuel mass flow rate, neither requiring significant modifications to the baseline engine. Moreover, in the case of the recovery system failure, the operation of the engine is not affected, thus resulting in no engine availability reduction. This work also shows a feasible way to convert the mechanical energy delivered by the recovery turbine into electrical energy, by making use of a high-speed electrical generator.
Author	Antonelli, Marco Frigo, Stefano Francesconi, Marco Sani, Luca
Author_xml	– sequence: 1 givenname: Stefano surname: Frigo fullname: Frigo, Stefano organization: University of Pisa, D.E.S.Te.C. Departimento , Italy – sequence: 2 givenname: Marco surname: Francesconi fullname: Francesconi, Marco organization: University of Pisa, D.E.S.Te.C. Departimento , Italy – sequence: 3 givenname: Luca surname: Sani fullname: Sani, Luca organization: University of Pisa, D.E.S.Te.C. Departimento , Italy – sequence: 4 givenname: Marco surname: Antonelli fullname: Antonelli, Marco organization: University of Pisa, D.E.S.Te.C. Departimento , Italy
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SubjectTerms	Diesel engines Electric generators Energy Energy recovery systems Energy utilization Exhaust systems Gate valves Internal combustion engines Mass flow rate Numerical analysis Numerical models Physics Power management Superchargers Turbines
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Title	Numerical analysis of energy recovery system for turbocharged internal combustion engines via a parallel compounding turbine
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