The effect of injection parameters and boost pressure on diesel-propane dual fuel low temperature combustion in a single-cylinder research engine. (15th November 2016)
- Record Type:
- Journal Article
- Title:
- The effect of injection parameters and boost pressure on diesel-propane dual fuel low temperature combustion in a single-cylinder research engine. (15th November 2016)
- Main Title:
- The effect of injection parameters and boost pressure on diesel-propane dual fuel low temperature combustion in a single-cylinder research engine
- Authors:
- Krishnan, Sundar Rajan
Srinivasan, Kalyan Kumar
Raihan, Mostafa Shameem - Abstract:
- Abstract: Diesel-ignited propane dual fuel low temperature combustion was characterized in a single-cylinder research engine (SCRE) at constant values of indicated mean effective pressure (IMEP of 5.1 bar), engine speed (1500 rpm), and propane energy substitution (PES = 80%). The effects of three important engine parameters (start of injection (SOI) of diesel fuel, common-rail pressure (Prail ) for diesel injection, and boost pressure (Pin )) on engine performance, combustion, and emissions were examined. As SOI was advanced from 355 absolute crank angle degrees (CAD) (or 5° BTDC) to 280 CAD for constant Prail = 500 bar and Pin = 1.5 bar, the apparent heat release rate (AHRR) profiles changed from a two-stage, "diesel-like" combustion process to a smooth, "Gaussian-like, " single-stage combustion process, that was representative of more homogeneous combustion. In addition, with SOI advancement, the combustion phasing (CA50) was initially advanced but eventually occurred later for very early SOIs. Indicated-specific emissions of oxides of nitrogen (ISNOx) were reduced to about 0.12 g/kW h for SOIs advanced beyond 310 CAD while maintaining high indicated fuel conversion efficiencies (IFCEs). While smoke emissions were below 0.1 FSN for all conditions tested in this study, indicated-specific hydrocarbon (ISHC) and carbon monoxide (ISCO) emissions were high at both very early and very late SOIs. Efficiency-emissions tradeoffs indicated an "optimal" SOI of 310 CAD under theseAbstract: Diesel-ignited propane dual fuel low temperature combustion was characterized in a single-cylinder research engine (SCRE) at constant values of indicated mean effective pressure (IMEP of 5.1 bar), engine speed (1500 rpm), and propane energy substitution (PES = 80%). The effects of three important engine parameters (start of injection (SOI) of diesel fuel, common-rail pressure (Prail ) for diesel injection, and boost pressure (Pin )) on engine performance, combustion, and emissions were examined. As SOI was advanced from 355 absolute crank angle degrees (CAD) (or 5° BTDC) to 280 CAD for constant Prail = 500 bar and Pin = 1.5 bar, the apparent heat release rate (AHRR) profiles changed from a two-stage, "diesel-like" combustion process to a smooth, "Gaussian-like, " single-stage combustion process, that was representative of more homogeneous combustion. In addition, with SOI advancement, the combustion phasing (CA50) was initially advanced but eventually occurred later for very early SOIs. Indicated-specific emissions of oxides of nitrogen (ISNOx) were reduced to about 0.12 g/kW h for SOIs advanced beyond 310 CAD while maintaining high indicated fuel conversion efficiencies (IFCEs). While smoke emissions were below 0.1 FSN for all conditions tested in this study, indicated-specific hydrocarbon (ISHC) and carbon monoxide (ISCO) emissions were high at both very early and very late SOIs. Efficiency-emissions tradeoffs indicated an "optimal" SOI of 310 CAD under these conditions, which was chosen for further studies at different Prail and Pin . Decreasing Prail from 1300 bar to 200 bar at Pin = 1.5 bar led to a steep increase in ISNOx emissions for Prail below 400 bar; however IFCE and smoke were relatively invariant with Prail . Boost pressure effects were then quantified at Prail = 500 bar. As Pin was increased from 1.1 bar to 1.8 bar, the ignition delay decreased and the AHRR profiles continued to exhibit single-stage combustion, albeit with different rates and peak magnitudes. Moreover, with increasing Pin, the IFCE and ISCO increased while ISNOx and ISHC decreased slightly. Finally, the impact of SOI, Prail, and Pin variations on engine stability (i.e., COV of IMEP), maximum pressure rise rates (MPRRs), and combustion duration were also characterized. … (more)
- Is Part Of:
- Fuel. Volume 184(2016)
- Journal:
- Fuel
- Issue:
- Volume 184(2016)
- Issue Display:
- Volume 184, Issue 2016 (2016)
- Year:
- 2016
- Volume:
- 184
- Issue:
- 2016
- Issue Sort Value:
- 2016-0184-2016-0000
- Page Start:
- 490
- Page End:
- 502
- Publication Date:
- 2016-11-15
- Subjects:
- AHRR apparent heat release rate, J/deg -- BDC bottom dead center -- BMEP brake mean effective pressure, bar -- BTDC before top dead center -- CA10-90 crank angle degrees between the locations of 10% and 90% cumulative heat release, CAD -- CA5 crank angle at which 5% of cumulative heat release occurs, CAD -- CA50 crank angle at which 50% of cumulative heat release occurs, CAD -- CAD crank angle degrees -- CO carbon monoxide, g/kW h -- COV coefficient of variation, % -- EGR exhaust gas recirculation -- EOI end of injection of diesel, CAD -- FSN filter smoke number -- HC unburned hydrocarbon, g/kW h -- HCCI homogeneous charge compression ignition -- ID ignition delay, CAD -- IFCE indicated fuel conversion efficiency, % -- IMEP indicated mean effective pressure, bar -- LHV lower heating value, MJ/kg -- LTC low temperature combustion -- MPRR maximum pressure rise rate, bar/CAD -- NOx oxides of nitrogen, g/kW h -- PES percent energy substitution, % -- Pin intake manifold (boost) pressure, bar -- Prail rail pressure, bar -- RCCI reactivity controlled compression ignition -- SOC start of combustion, CAD -- SOI start of injection of diesel, CAD -- TDC top dead center -- ηcomb combustion efficiency, %
Dual fuel -- Low temperature combustion -- Injection timing -- RCCI -- Propane -- NOx emissions
Fuel -- Periodicals
Coal -- Periodicals
Coal
Fuel
Periodicals
662.6 - Journal URLs:
- http://www.sciencedirect.com/science/journal/latest/00162361 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.fuel.2016.07.042 ↗
- Languages:
- English
- ISSNs:
- 0016-2361
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
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