2018
DOI: 10.1016/j.fuel.2018.06.056
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Time-resolved chemical composition of small-scale batch combustion emissions from various wood species

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Cited by 33 publications
(28 citation statements)
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“…Furthermore, the flaming phases of the first batches were shorter than those of the following batches of dry spruce or beech fuels. The emission profiles were affected by these batchwise differences, with ignition being the period for enhanced organic emissions, whereas the flaming phase was characterized by an increase in particulate emissions consisting mainly of black carbon, as expected based on previous work (Kortelainen et al, 2018). The char burnout phases with these fuels were characterised by high CO concentrations, whereas in moist spruce combustion elevated CO concentrations were measured throughout the batch, thus making the burnout phases less distinguishable.…”
Section: Combustion Conditionssupporting
confidence: 63%
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“…Furthermore, the flaming phases of the first batches were shorter than those of the following batches of dry spruce or beech fuels. The emission profiles were affected by these batchwise differences, with ignition being the period for enhanced organic emissions, whereas the flaming phase was characterized by an increase in particulate emissions consisting mainly of black carbon, as expected based on previous work (Kortelainen et al, 2018). The char burnout phases with these fuels were characterised by high CO concentrations, whereas in moist spruce combustion elevated CO concentrations were measured throughout the batch, thus making the burnout phases less distinguishable.…”
Section: Combustion Conditionssupporting
confidence: 63%
“…In logwood-fired appliances, there is also a strong variation in the emissions during the different combustion phases of batches, with ignition producing the highest organic emissions (Bhattu et al, 2019;Kortelainen et al, 2018). However, highest black carbon concentrations are emitted during the flaming phase, while the char burnout phase typically emits large amounts of carbon monoxide but low, mainly inorganic particulate emissions (Kortelainen et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
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“…Thus, literature values vary remarkably and are not fully comparable to each other. When compared to other Finnish appliance types (masonry heaters), conventional masonry heaters have PM 1 concentrations between 28 and 464 mg/Nm 3 whereas from modern masonry heaters, concentrations are lower, 34-100 mg/Nm 3 [9][10][11]32,[34][35][36]. Thus, the emission levels from least emitting SS are rather low, in the same order of magnitude as in modern log wood combustion appliances.…”
Section: Pm 1 Concentrationsmentioning
confidence: 94%
“…In this study, real time organic particle measurements that could further reveal the mechanisms behind this phenomenon were not possible. However, according to previous studies, particulate organic matter is mainly emitted during the ignition phase and especially after the addition of wood logs in batch combustion processes (e.g., [36]).…”
Section: Oc and Pah Concentrationsmentioning
confidence: 98%