his study compared the combustion characteristics between bioliquid an的简体中文翻译

his study compared the combustion c

his study compared the combustion characteristics between bioliquid and heavy fuel oil using a 0.7 MWth pilot furnace and a 75 MWe power generation boiler. The bioliquid flame in the pilot furnace was clearer and more transparent, but higher gas temperature in the burner zone, compared to the heavy fuel oil flame. It might be due to higher sooting tendency of the heavy fuel oil flame. Due to the lower N and S contents in bioliquid, NOx and SOx emissions were significantly reduced in the bioliquid combustion tests. For the bioliquid demonstration in a 75 MWe power generation boiler, bioliquid firing led to decrease in heat flux to the furnace wall, so the furnace exit gas temperature was increased, comparing to the heavy fuel oil firing. Subsequently, the heat absorption in the first pass of the boiler was increased and finally it led to the increase in reheater de-superheating water spray flow rate. Significant reductions in NOx and SOx emissions were achieved with bioliquid firing. The operation and measured data in the bioliquid demonstration tests showed the successful operation of the unit, and no operational or emissions limitations were identified. 还
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结果 (简体中文) 1: [复制]
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他的研究比较了使用0.7 MWth试点炉和75兆瓦的发电锅炉物质液体和重油的燃烧特性。在试点炉内的物质液体火焰在燃烧器区域更清楚和更透明的,但较高的气体温度相比,重质燃油的火焰。这可能是重质燃油火焰由于较高的积炭倾向。由于在物质液体下部N和S的含量,NOx和SOx的排放量在燃烧物质液体试验显著降低。对于在75兆瓦发电锅炉的物质液体示范,物质液体烧成导致在热通量在炉壁上降低,所以在炉出口气体温度增加时,相比较于重燃料油点火。随后,在锅炉的第一遍吸热升高,最后它在再热器引导到增加脱过热喷水流速。在NOx和SOx排放显著减排与物质液体发射实现。在物质液体示范测试操作和测量的数据显示单元的成功操作,并鉴定无操作或排放物限制。还
正在翻译中..
结果 (简体中文) 2:[复制]
复制成功!
his study compared the combustion characteristics between bioliquid and heavy fuel oil using a 0.7 MWth pilot furnace and a 75 MWe power generation boiler. The bioliquid flame in the pilot furnace was clearer and more transparent, but higher gas temperature in the burner zone, compared to the heavy fuel oil flame. It might be due to higher sooting tendency of the heavy fuel oil flame. Due to the lower N and S contents in bioliquid, NOx and SOx emissions were significantly reduced in the bioliquid combustion tests. For the bioliquid demonstration in a 75 MWe power generation boiler, bioliquid firing led to decrease in heat flux to the furnace wall, so the furnace exit gas temperature was increased, comparing to the heavy fuel oil firing. Subsequently, the heat absorption in the first pass of the boiler was increased and finally it led to the increase in reheater de-superheating water spray flow rate. Significant reductions in NOx and SOx emissions were achieved with bioliquid firing. The operation and measured data in the bioliquid demonstration tests showed the successful operation of the unit, and no operational or emissions limitations were identified. 还
正在翻译中..
结果 (简体中文) 3:[复制]
复制成功!
他的研究比较了生物液体和重质燃料油在0.7mwt中试炉和75mwe发电锅炉上的燃烧特性。与重质燃料油火焰相比,中试炉内的生物液体火焰更清晰、更透明,但燃烧器区的气体温度更高。这可能是由于重质燃料油火焰具有较高的烟灰倾向。由于生物液中N、S含量较低,在生物液燃烧试验中NOx和SOx的排放量显著降低。在75mwe电站锅炉上进行生物液体燃烧试验时,生物液体燃烧导致炉膛壁面热流减少,从而提高了炉膛出口烟气温度。随后,锅炉第一道吸收热量增加,最终导致再热器减温水喷淋流量增加。生物液体燃烧可显著减少氮氧化物和硫氧化物的排放。生物液体示范试验的运行和测量数据表明,该装置运行成功,未发现任何运行或排放限制。船首
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