Influence of molecular structure of oleoresin-derived compounds on flame properties and emissions from laminar flames

The search for renewable fuels or components which may improve or replace fossil fuels is an important step towards a sustainable future. In particular, the pine oleoresin produced by conifer trees, which is composed by turpentine oil and non-volatile rosin, may be transformed into alternative fuels...

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Veröffentlicht in:	Environmental science and pollution research international 2020-09, Vol.27 (27), p.33890-33902
Hauptverfasser:	García, Duban, Lapuerta, Magín, Villa, Aída Luz, Alarcón, Edwin, Bustamante, Felipe
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Sprache:	eng
Schlagworte:	Alternative fuels Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Biofuels Borneol carbon Carbon monoxide chemical structure Combustion Coniferous trees conifers Distillation Earth and Environmental Science Ecotoxicology Emission analysis Emissions Environment Environmental Chemistry Environmental Health Environmental science Flame temperature Flames Fossil fuels Fuels heptane Heptanes Laminar flow Molecular structure nitrogen Nitrogen oxides oils Oleoresins Photochemicals Pine Pinene Pollutants Pollution index raw materials Renewable fuels Research Article Rosin temperature Terpineol Turpentine Waste Water Technology Water Management Water Pollution Control
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creator	García, Duban Lapuerta, Magín Villa, Aída Luz Alarcón, Edwin Bustamante, Felipe
description	The search for renewable fuels or components which may improve or replace fossil fuels is an important step towards a sustainable future. In particular, the pine oleoresin produced by conifer trees, which is composed by turpentine oil and non-volatile rosin, may be transformed into alternative fuels. In this work, combustion of six molecules which can be obtained from oleoresin either by distillation (i.e., α- and β-pinene) or by further oxyfunctionalization (nopol, terpineol, myrtenol, and borneol) was studied to assess the potential of pine oleoresin as raw material for biofuels. Emission indices of the main pollutants (carbon monoxide—CO, unburned hydrocarbons—UHC, and nitrogen oxides—NOx) were obtained in non-premixed co-flow laminar flames of the oleoresin-derived molecules blended with n -heptane. The main characteristics of the flames (i.e., temperature and height) were also determined. Significant increase in flame temperature and reduction in CO and UHC emissions with respect to n -heptane were observed with nopol, terpineol, and myrtenol, along an increase in NOx emissions, suggesting an improvement in combustion performance. In addition, differences in emission indices, evidenced for these molecules (even between α- and β-pinene), suggest the importance of the molecular structure in the combustion reaction.
doi_str_mv	10.1007/s11356-020-09555-w
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subjects	Alternative fuels Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Biofuels Borneol carbon Carbon monoxide chemical structure Combustion Coniferous trees conifers Distillation Earth and Environmental Science Ecotoxicology Emission analysis Emissions Environment Environmental Chemistry Environmental Health Environmental science Flame temperature Flames Fossil fuels Fuels heptane Heptanes Laminar flow Molecular structure nitrogen Nitrogen oxides oils Oleoresins Photochemicals Pine Pinene Pollutants Pollution index raw materials Renewable fuels Research Article Rosin temperature Terpineol Turpentine Waste Water Technology Water Management Water Pollution Control
title	Influence of molecular structure of oleoresin-derived compounds on flame properties and emissions from laminar flames
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