Chemical Engineering Transactions (Jun 2022)

Design and Development of Bubbling Fluidized Bed Gasifier for Non-woody Biomass Gasification

  • Mohammad Shahadat Hossain,
  • Deepak Kumar,
  • Nishat Paul,
  • Syed Jahid Rahman,
  • Mohammad Anisur Rahman,
  • Mohammad Rakib Uddin,
  • Domenico Pirozzi,
  • Mohammad Nazim Uddin,
  • Abu Yousuf

DOI
https://doi.org/10.3303/CET2292049
Journal volume & issue
Vol. 92

Abstract

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Bubbling fluidized bed (BFB) reactor is advantageous for synthesis gas or syngas production among other available gasifiers. In this study, a BFB gasifier has been designed, utilizing non-woody biomass (rice straw) and air as gasifying medium, to investigate the effect of equivalence ratio (ER), static bed height, and operating temperature on synthesis gas yield and gasification efficiency. To calculate various structural and operating parameters, a reaction chamber with a diameter of 10 cm and a bed material of 400-500 µm has been studied. Considering the minimum fluidization velocity, slugging velocity, and terminal velocity, the optimum operating velocity has been taken as 17.25 cm/s. The calculated optimum transport disengagement height (TDH) is 86 cm, and the freeboard height is approximately 116 cm. Thus, the overall height of the reactor has come up as 202 cm. Almost 80% carbon conversion efficiency (CCE) was achieved from this BFB reactor with an optimum ER value of 0.35 during rice straw gasification. The same gasifier results in a synthesis gas yield of 3.6 Nm 3 kg with a lower heating value (LHV) of about 3.5 MJ Nm 3 at optimum ER value. Further scaling up this process based on the findings of this study for industrial-scale synthesis gas production can pave a way for bioenergy generation from non-woody biomass.