Article: Exhaust pulse energy harvesting - an experimental investigation on a single cylinder research engine Journal: International Journal of Powertrains (IJPT) 2017 Vol.6 No.4 pp.352 - 370 Abstract: This paper discusses the theoretical potential of direct exhaust pulse energy harvesting, specifically through a proposed theoretical expander device. A detailed review of pertinent literature determined that there has been little focus specifically on directly converting exhaust pulse energy into useful power. Crank position resolved exhaust pressure was measured as engine load and speed were varied in a single cylinder research (diesel) engine. Potential theoretical improvements average a 12% reduction in overall indicated specific fuel consumption with respect to baseline for the tested operating conditions. Additional parametric studies quantify the effects of intake manifold pressure, exhaust manifold pressure, engine speed and load on measured instantaneous exhaust pressures. Together, these observations are expected to provide a wide range of experimental data to anchor CFD and phenomenological models, which can be used to design viable expander geometries to optimally harness exhaust waste energy in light and heavy-duty engines. Inderscience Publishers - linking academia, business and industry through research

Title: Exhaust pulse energy harvesting - an experimental investigation on a single cylinder research engine

Authors: Taylor C. Bohach; Hamidreza Mahabadipour; Sundar R. Krishnan; Kalyan K. Srinivasan; Swaminathan Subramanian

Addresses: Department of Mechanical Engineering, Mississippi State University, 210 Carpenter Engineering Building, P.O. Box ME, MS 39762-5925, USA ' Department of Mechanical Engineering, Mississippi State University, 210 Carpenter Engineering Building, P.O. Box ME, MS 39762-5925, USA ' Department of Mechanical Engineering, Mississippi State University, 210 Carpenter Engineering Building, P.O. Box ME, MS 39762-5925, USA ' Department of Mechanical Engineering, Mississippi State University, 210 Carpenter Engineering Building, P.O. Box ME, MS 39762-5925, USA ' Eaton Corporate Research & Technology, 26201 Northwestern Hwy, Southfield, MI 48076, USA

Abstract: This paper discusses the theoretical potential of direct exhaust pulse energy harvesting, specifically through a proposed theoretical expander device. A detailed review of pertinent literature determined that there has been little focus specifically on directly converting exhaust pulse energy into useful power. Crank position resolved exhaust pressure was measured as engine load and speed were varied in a single cylinder research (diesel) engine. Potential theoretical improvements average a 12% reduction in overall indicated specific fuel consumption with respect to baseline for the tested operating conditions. Additional parametric studies quantify the effects of intake manifold pressure, exhaust manifold pressure, engine speed and load on measured instantaneous exhaust pressures. Together, these observations are expected to provide a wide range of experimental data to anchor CFD and phenomenological models, which can be used to design viable expander geometries to optimally harness exhaust waste energy in light and heavy-duty engines.

Keywords: blowdown; compounding; displacement; exhaust pulse; expander; heat energy recovery; pulse harvesting; second-law analysis; waste energy recovery; WER.

DOI: 10.1504/IJPT.2017.088503

International Journal of Powertrains, 2017 Vol.6 No.4, pp.352 - 370

Received: 17 Mar 2016
Accepted: 29 Nov 2016
Published online: 11 Dec 2017 *

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Title: Exhaust pulse energy harvesting - an experimental investigation on a single cylinder research engine

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