纤维增强塑料材料在流化床气化炉中与黄豆共烧效果的应用

Q1 Environmental Science

Bioresource Technology Reports Pub Date : 2025-02-01 DOI:10.1016/j.biteb.2025.102080

Keerthivasan Kunjupillai Chandrasekaran , Vivekanandan Shanmugam , S. Raju , Gopinath Govindan Radhakrishnan

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引用次数: 0

摘要

基于生物化学和热重分析（TGA）的流化床气化炉（FBG）采用拟豆（PJ）和纤维增强塑料（FRP）作为进料，高效地将低密度进料转化为产气。温度(T)、进料速率（FR）和质量流量（MF）等因素对PJ和FRP共烧的影响揭示了生物质气化效率（CCE）、冷气效率（CGE）、焦油产率（TYE）和灰分效率（ACE）之间的关系。通过对工艺参数的实验，验证了响应面法（RSM）多次运行后的优化结果。与PJ + FRP作为馈源相比，PJ在光纤光栅中具有良好的性能。PJ≥0.88,PJ + FRP≥0.77,ACE≥3.84%时CGE为64.74%,ACE≥16.21%时CGE为62.64%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Utilization of Fibre-reinforced plastic material as co-firing effect with Prosopis Juliflora in fluidized bed gasifier

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Utilization of Fibre-reinforced plastic material as co-firing effect with Prosopis Juliflora in fluidized bed gasifier

Prosopis Juliflora (PJ) and Fibre-reinforced Plastic (FRP) are used as feed in fluidized bed gasifier (FBG) based on phyio-chemical and thermo-gravimetric analysis (TGA) to convert, efficiently low-density feed to generate producer gas. Co-firing of PJ and FRP was revealed by the effect of such as Temperature (T), Feed rate (FR) and Mass flow (MF) were obtaining the relationship among the efficiencies of biomasses such as Carbon Conversion Efficiency (CCE), Cold Gas Efficiency (CGE), Tar Yield Efficiency (TYE) and Ash Content Efficiency (ACE) in gasification. Optimized result after multiple runs in response surface methodology (RSM)and experiments are validated through experimentation with process parameters. PJ has a good performance in the FBG when compared with PJ + FRP used as a feed. The desirability limit of PJ was 0.88 and PJ + FRP was 0.77and has CGE was 64.74 % when 3.84 % of ACE in PJ and CGE was 62.64 % when 16.21 % of ACE in PJ + FRP.

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