Abstract
Since the beginning of internal combustion engine development, engineers tackle the problem of losses into the exhaust gases. The gases exiting the combustion chamber are hot and pressurized. Recovering a part of the energy contained in those gases could be beneficial for the ICE efficiency.
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References
Aghaali, H., Ångström, H.-E.: A review of turbocompounding as a waste heat recovery system for internal combustion engines. Renew. Sustain. Energy Rev. 49, 813–824 (2015)
Ambros, P., Fezer, A.: Twin round tube evaporator for waste heat recovery. MTZ Worldwide eMag. 75(1), 36–39 (2014)
Daimler Trucks North America, Freightliner supertruck presentation (2015)
Dickson, J., Ellis, M., Rousseau, T., Smith, J.: Validation and design of heavy vehicle cooling system with waste heat recovery condenser. SAE Int. J. Commercial Veh. 7, 458–467 (2014)
Doyle, E., DiNanno, L., Kramer, S.: Installation of a diesel-organic rankine compound engine in a class 8 truck for a single-vehicle test. In: SAE Technical Paper, number 790646, SAE International (1979)
EPA, Greenhouse Gas Emissions Model (GEM) for Medium- and Heavy-Duty Vehicle Compliance (2016)
Espinosa, N.: Contribution to the study of waste heat recovery systems on commercial truck diesel engines. Ph.D thesis, University of Liege, National Polytechnic Institute of Lorraine (2011)
Freymann, R., Strobl, W., Obieglo, A.: The turbosteamer: a system introducing the principle of cogeneration in automotive applications. MTZ Worldwide 69(5), 20–27 (2008)
Hiereth, H., Drexl, K., Prenninger, P.: Charging the Internal Combustion Engine. Springer, Heidelberg (2007)
Ibaraki, S., Endo, T., Kojima, Y., Takahashi, K., Baba, T., Kawajiri, S.: Study of efficient on-board waste heat recovery system using rankine cycle. Rev. Automot. Eng. 28(3), 307–313 (2007)
Karellas, S., Schuster, A., Leontaritis, A.-D.: Influence of supercritical ORC parameters on plate heat exchanger design. Appl. Thermal Eng. 33–34, 70–76 (2012)
Latz, G., Erlandsson, O., Skare, T., Contet, A., Andersson, S., Munch, K.: Water-based rankine cycle waste heat recovery systems for engines: challenges and opportunities. In: 3rd International Seminar on ORC Power Systems (ORC15) (2015)
LeBlanc, S.: Thermoelectric generators: linking material properties and systems engineering for waste heat recovery applications. Sustain. Mater. Technol. 1–2, 26–35 (2014)
Legros, A., Guillaume, L., Diny, M., Zaïdi, H., Lemort, V.: Experimental investigations of the valorization of the exhaust waste heat of a gasoline engine based on a rankine cycle (2014)
Oomori, H., Ogino, S.: Waste heat recovery of passenger car using a combination of rankine bottoming cycle and evaporative cooling system. In: SAE Technical Paper, number 930880, SAE International (1993)
Ronan, L., Abernathy, W.: The development and introduction of the automotive turbocharger: A case of innovation in response to fuel economy regulation. Technical report (1979)
Saidur, R., Rezaei, M., Muzammil, W., Hassan, M., Paria, S., Hasanuzzaman, M.: Technologies to recover exhaust heat from internal combustion engines. Renew. Sustain. Energy Rev. 16(8), 5649–5659 (2012)
Stobart, R., Weerasinghe, R.: Heat recovery and bottoming cycles for si and ci engines - aperspective. In: SAE Technical Paper, SAE International (2006)
Teng, H., Regner, G., Cowland, C.: Waste heat recovery of heavy-duty diesel engines by organic rankine cycle part I: Hybrid energy system of diesel and rankine engines. In: SAE Technical Paper, SAE International (2007)
Acknowledgements
The authors gratefully acknowledge Tenneco GmbH for their support, F. Terres, M. Glas, M. Miersch and V. Brennion for their contribution and help during this study and the reviewing phase.
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Grelet, V., Tipner, P. (2017). Assessment of Evaporators Used in Waste Heat Recovery Rankine Cycle Based Systems for Heavy Duty Truck Application. In: Junior, C., Jänsch, D., Dingel, O. (eds) Energy and Thermal Management, Air Conditioning, Waste Heat Recovery. ETA 2016. Springer, Cham. https://doi.org/10.1007/978-3-319-47196-9_4
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DOI: https://doi.org/10.1007/978-3-319-47196-9_4
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