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Experimental Investigation and RSM Modeling of the Effects of Injection Timing on the Performance and NO x Emissions of a Micro-Cogeneration Unit Fueled with Biodiesel Blends

Author

Listed:
  • Carlo Caligiuri

    (Faculty of Science and Technologies, Free University of Bozen-Bolzano, 39100 Bolzano, Italy)

  • Marco Bietresato

    (Faculty of Science and Technologies, Free University of Bozen-Bolzano, 39100 Bolzano, Italy)

  • Angelo Algieri

    (Department of Mechanical, Energy and Management Engineering, University of Calabria, 87036 Arcavacata di Rende, Italy)

  • Marco Baratieri

    (Faculty of Science and Technologies, Free University of Bozen-Bolzano, 39100 Bolzano, Italy)

  • Massimiliano Renzi

    (Faculty of Science and Technologies, Free University of Bozen-Bolzano, 39100 Bolzano, Italy)

Abstract

The (partial or total) substitution of petro-diesel with biodiesel in internal combustion engines (ICEs) could represent a crucial path towards the decarbonization of the energy sector. However, critical aspects are related to the controversial issue of the possible increase in Nitrogen Oxides (NO x ) emissions. In such a framework, the proposed study aims at investigating the effects of biodiesel share and injection timing on the performance and NO x emissions of a diesel micro combined heat and power (CHP) system. An experimental campaign has been conducted considering the following operating conditions: (i) a reference standard injection timing (17.2° BTDC), an early injection timing (20.8° BTDC), and a late injection timing (12.2° BTDC); (ii) low (0.90 kW), partial (2.45 kW), and full (3.90 kW) output power load; and (iii) four fuel blends with different biodiesel ( B ) shares ( B0 , B15 , B30 , and B100 ). Experimental data were also elaborated on thanks to the response surface modelling (RSM) technique, aiming at (i) quantifying the influences of the above-listed variables and their trends on the responses, and (ii) obtaining a set of predictive numerical models that represent the basis for model-based design and optimization procedures. The results show: (i) an overall improvement of the engine performance due to the biodiesel presence in the fuel blend —in particular, B30 and B100 blends have shown peak values in both electrical (29%) and thermal efficiency (42%); (ii) the effective benefits of late SOI strategies on NO x emissions, quantified in an overall average NO x reduction of 27% for the early-to-late injection, and of 16% for the standard-to-late injection strategy. Moreover, it has emerged that the NO x -reduction capabilities of the late injection strategy decrease with higher biodiesel substitution rates; through the discussion of high-prediction-capable, parametric, data-driven models, an extensive RSM analysis has shown how the biodiesel share promotes an increase of NO x whenever it overcomes a calculated threshold that is proportional to the engine load (from about 66.5% to 85.7% of the biodiesel share).

Suggested Citation

  • Carlo Caligiuri & Marco Bietresato & Angelo Algieri & Marco Baratieri & Massimiliano Renzi, 2022. "Experimental Investigation and RSM Modeling of the Effects of Injection Timing on the Performance and NO x Emissions of a Micro-Cogeneration Unit Fueled with Biodiesel Blends," Energies, MDPI, vol. 15(10), pages 1-19, May.
  • Handle: RePEc:gam:jeners:v:15:y:2022:i:10:p:3586-:d:815209
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    References listed on IDEAS

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