Effect of the non-uniform combustion core shape on the biochar production characteristics of the household biomass gasifier stove

International Journal of Renewable Energy Development Pub Date : 2023-09-12 DOI:10.14710/ijred.2023.56575

Somchet Chaiyalap, Ritthikrai Chai-ngam, Juthaporn Saengprajak, Jenjira Piamdee, Apipong Putkham, Arnusorn Saengprajak

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引用次数: 0

Abstract

The global demand for biochar in agricultural and carbon sequestration applications is increasing; nevertheless, biochar production using the 50-liter household biomass gasifier stove (50L-HBGS) in Thailand found major issues that need to be improved. The objective of this study was to study the effects of the airflow in the non-uniform combustion core shape (NCCS) on the biochar production characteristic of the 50L-HBGS. The new design of the NCCS was constructed and studied to replace the existing combustion core shape (ECCS) at Mahasarakham University. The height, air inlet, and air outlet diameters of the NCCS were designed at 45, 24, and 11.4 cm, respectively. The NCCS with 21 holes of the pyrolysis gas outlet, a diameter of 4 mm for each, was integrated into the 50L-HBGS and performed comparative tests to the ECCS using 9 kg of bamboo wood chunks in three consecutive experiments. The airflow and the combustion behavior were studied through the stove temperature profiles, which were recorded every 5 minutes using a digital data logger. The biochar products were studied using the scanning electron microscope (SEM) with the energy dispersive x-ray spectroscopy (EDS), Fourier transform infrared spectroscopy (FTIR), and the proximate analysis technique. The study indicated that the 50L-HBGS with the NCCS made significantly improved the airflow rates in the combustion core, resulting in better continuous burning during the ignition state than with the ECCS. Moreover, the pyrolysis temperatures were significantly improved, it was provided temperatures during the pyrolysis process reached higher than 500 oC, resulting in the liquid tar being removed and no unburned wood chunks remaining at the end. The characterization result demonstrated that the 50L-HBGS with the NCCS had created biochar within a range of micropore and macrospore sizes and high fixed carbon content, which could be advantageously used for different agricultural and carbon sequestration applications.

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燃烧芯形状不均匀对家用生物质气化炉产炭特性的影响

全球在农业和固碳应用方面对生物炭的需求正在增加;然而，泰国使用50升家用生物质气化炉(50L-HBGS)生产生物炭发现了需要改进的主要问题。本研究的目的是研究非均匀燃烧核心形状(NCCS)气流对50L-HBGS生物炭生产特性的影响。NCCS的新设计是在Mahasarakham大学建造和研究的，以取代现有的燃烧核心形状(ECCS)。NCCS的高度、进风口直径和出风口直径分别设计为45、24和11.4 cm。将具有21个孔(孔直径为4 mm)的NCCS集成到50L-HBGS中，并连续3次使用9 kg竹木块与ECCS进行对比试验。通过炉子温度曲线研究气流和燃烧行为，使用数字数据记录器每5分钟记录一次。采用扫描电镜(SEM)、x射线能谱仪(EDS)、傅里叶变换红外光谱(FTIR)和近似分析技术对生物炭产物进行了研究。研究表明，与ECCS相比，采用NCCS的50L-HBGS显著提高了燃烧芯内的气流速率，在点火状态下的连续燃烧效果更好。同时，热解温度也得到了显著提高，在热解过程中温度达到500℃以上时，液态焦油被除去，最后没有未燃烧的木块残留。表征结果表明，采用NCCS的50L-HBGS制备的生物炭具有微孔和大孢子大小，固定碳含量高，可用于不同的农业和固碳应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Renewable Energy Development

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