Reference : Rankine cycle for waste heat recovery on commercial trucks: approach, constraints and mo...

	Document type :	Scientific congresses and symposiums : Paper published in a book
	Discipline(s) :	Engineering, computing & technology : Energy
	To cite this reference:	http://hdl.handle.net/2268/62995

Title :	Rankine cycle for waste heat recovery on commercial trucks: approach, constraints and modelling
Language :	English
Author, co-author :	Espinosa, Nicolas [ULg - Laboratoire de themodynamique & Volvo Powetrain France > > > > >]
	Tilman, Loic [ > > ]
	Lemort, Vincent [Université de Liège - ULg > Département d'aérospatiale et mécanique > Systèmes énergétiques >]
	Quoilin, Sylvain [Université de Liège - ULg > Département d'aérospatiale et mécanique > Systèmes énergétiques >]
	Lombard, Benoit [Volvo Powetrain France > > > >]
Publication date :	May-2010
On invitation :	No
Audience :	International
Event name :	Diesel International Conference and Exhibition
Event organizer :	SIA
Event country :	France
Abstract :	[en] With increasing oil price and growing interest in cutting green house gases emissions, waste heat recovery techniques appear as a very promising path to enhance engine thermal efficiency. Thermoelectricity and Rankine cycles are two possible ways to recover thermal energy. The Rankine cycle shows the highest potential due to its higher cycle efficiency in comparison with the current state-of-the-art thermoelectric materials intrinsic conversion ratio. This paper will focus on the Rankine cycle system. The first part of the paper lists and describes the constraints of a heat recovery Rankine cycle system associated to a long haulage truck: limitation of heat available in the heat source, vehicle heat rejection constraints, safety and environmental issues for the working fluid, and backpressures occurring during the heat recovery process. The second part of the paper presents a 0-D simulation model of a Rankine cycle system. It is shown how the model can be used to compare the performance achieved with several working fluids. Moreover, basic thermodynamic limitations of the system are underlined. Conclusions are drawn concerning the limitation of using only thermodynamic simulations. The performance of the condenser (and its influence on the overall performance) has been investigated more in details, which is shown in the third part of the paper. This was carried out based on a 1-D simulation model of the condenser. Influence of the condenser size and ram air effect are discussed, and the impact on the Rankine cycle is assessed.
Target :	Researchers ; Professionals
Permalink :	http://hdl.handle.net/2268/62995

	File(s) associated to this reference
	Fulltext file(s): File Commentary Version Size Access Open access paper espinosa2.pdf Publisher postprint 354.33 kB View/Open

All documents in ORBi are protected by a user license.

 

© ULg Library Network |  Feedback |  ORBi legal notices

Dspace v1.5