合欢木屑的理化评价、热解及热特性研究

International journal of nanotechnology and nanomedicine Pub Date : 2022-01-22 DOI:10.33140/ijnn.07.01.04

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引用次数: 2

摘要

采用标准方法获得合欢木屑的近似参数和最终参数。该木屑的HHV为16.01 MJ/ Kg, H/C为0.127,O/C为0.96，挥发分高87.85 wt.%，灰分低1.55 wt.%，是一种良好的生物燃料。由元素比组合得出的经验公式为CH0.127 O0.96 N0.057。由于%N和%S相对较低(分别为2.63和0)wt.%)，热解过程中产生的氮氧化物和硫氧化物体积较小。其TG/DTG谱图显示木屑在230℃开始脱挥发，热解温度在420 ~ 600℃之间，固定床热解在450℃记录了生物油的最大值，FTIR分析证实木屑及其原油中存在含氧化合物。用气相色谱- fid对所得生物油进行分析，发现木屑热解产生了大量的-OH化合物，但所得量并不经济。烧结和结渣结垢指标等;[na2o + K2 O] / [SiO2]= 0.0695(不存在烧结倾向);碱/酸=0.438(低灰化倾向);[SiO2]/([al2o3]=5.44， [fe2o3]/ [CaO]=0.28(低灰化倾向);结渣粘度指数= 68.58(低结渣倾向);%(SiO2)=55.18(高);Babcock (Rs)= 4.38 × 10-5，结垢指数(Fu)= 1.68 × 10-2(低沉积倾向);总碱(TA) =0.0097(低结垢倾向)。可以预见，通过改进热解工艺参数和对木屑进行预处理，可以获得更高的生物油收率，从而得到更高的醇类化合物。

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Physicochemical Assessment, Pyrolysis and Thermal Characterization of Albizia Zygia Tree Sawdust

Standard methods were used to obtain proximate and ultimate parameters of Albizia zygia tree sawdust. The HHV of 16.01 MJ/ Kg, H/C of 0.127, O/C of 0.96, high volatile matter of 87.85 wt.% and low ash content of 1.55 wt.% Albizia zygia sawdust makes it a good biofuel. Its empirical formula from elemental ratios combination is CH0.127 O0.96 N0.057 . There were insignificant volumes of oxides of nitrogen and sulphur produced during its pyrolysis since %N & %S are relatively low (2.63 & 0) wt.% respectively. Its TG/DTG profile showed devolatilization of sawdust began at 230 o C and the pyrolysis temperature was in the range of 420- 600 o C. Its fixed bed pyrolysis recorded maximum value of bio-oil at 450 o C. FTIR analysis confirmed the presence of oxygenated compounds in the sawdust and its crude bio-oil. The analysis of the obtained bio-oil using GC-FID showed that significant quantity of -OH compounds were produced from the sawdust through pyrolysis though the obtained quantity is not economical. Sintering and slagging-fouling indicators such as; [Na2 O + K2 O] / [SiO2 ]= 0.0695 showed (unlikely sintering inclination); Base/Acid=0.438 (low ash deposition tendency); [SiO2 ]/([Al2 O3 ]=5.44 & [Fe2 O3 ] / [CaO]=0.28 (low ash deposition tendencies respectively); slagging viscosity index= 68.58 (low slagging tendency); %(SiO2 )=55.18 (high); Babcock (Rs)= 4.38x 10-5 & Fouling indices (Fu)= 1.68x10-2 (low deposition tendencies); Total alkalis (TA) =0.0097 ( Low fouling tendency). It can be projected that improvement on pyrolysis process parameters and pre-treatment of sawdust can be used to achieve higher yield of bio-oil then consequently leading to higher quantity of alcohol compounds.

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International journal of nanotechnology and nanomedicine

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