PREDICTION OF BIOMASS PELLET DENSITY USING ADAPTIVE NEURO-FUZZY INFERENCE SYSTEM（ANFIS）METHOD

IF 0.6 Q4 AGRICULTURAL ENGINEERING INMATEH-Agricultural Engineering Pub Date : 2023-08-17 DOI:10.35633/inmateh-70-18

Juanya Liu, Zhuoyu Yan, Mingze Xu, Yudi Liu, Xuewei Bai, Yonghai Xiu, Desheng Wei

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Abstract

Coconut coir dust and corn stover powder were taken as raw biomass materials for pellet production, using four uni-axial compression set-ups, to explore the influence of the diameter of the inner hole diameter of the cylinder, the depth in compression , and the depth remained in compaction on the pellet density. Sample of pellets produced at the force steady phase, the maximum pellet density of the coconut coir dust material is 1.53 g/cm3 (1530 kg/m3), and 1.23 g/cm3 (1230 kg/m3) of the corn stalk powder pellets are obtained, At the same time, in the process of the test, Failure to compress the two biomass raw materials into pellets also occurred, indicating that the compression parameters studied in the experiment had a significant impact on the pellet quality. On the basis of the obtained pelleting test data, taking into account the nonlinear characteristics between pellet density and processing parameters involved, the adaptive neuro-fuzzy influence system(ANFIS) method was used to predict the pellet density of coconut coir dust and corn stover powder. The results show that the method is effective for predicting the density of biomass particles.

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基于自适应神经模糊推理系统(anfis)的生物质颗粒密度预测

以椰壳粉和玉米秸秆粉为原料，采用四个单轴压缩装置，探讨了筒体内径、压缩深度和剩余压实深度对球团密度的影响。在力稳定阶段生产的颗粒样品中，椰子椰粉材料的最大颗粒密度为1.53 g/cm3（1530 kg/m3），获得了1.23 g/cm3（1230 kg/m3）的玉米秸秆粉颗粒。同时，在测试过程中，也发生了两种生物质原料未能压缩成颗粒的情况，表明实验中研究的压缩参数对球团质量有显著影响。在获得的造粒试验数据的基础上，考虑到颗粒密度与工艺参数之间的非线性特性，采用自适应神经模糊影响系统（ANFIS）方法对椰壳粉和玉米秸秆粉的颗粒密度进行了预测。结果表明，该方法对生物质颗粒密度的预测是有效的。

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来源期刊

INMATEH-Agricultural Engineering AGRICULTURAL ENGINEERING-

CiteScore

1.30

自引率

57.10%

发文量