Litcius/Paper detail

CFD modeling of baijiu yeast spray drying process and improved design of drying tower

Fengkui Xiong, Yuejin Yuan, Kang Liu, Libin Tan, Jingyu Li, Zhe Zhao

2024Drying Technology10 citationsDOI

Abstract

High-quality baijiu yeast – modified Sporidiobolus johnsonii A (MSJA) suffers from the problem of weak vitality, thus failing to combine high efficiency and high survival rate drying. Therefore, in this study, we firstly designed a real-time sampling experiment of MSJA spray drying process, and based on this, we established a New CFD model (N-CFD model) that can accurately simulate the variation of the spray drying process of microorganisms such as MSJA. Then, a new spray drying air inlet mechanism of "high-temperature cyclone in the center L-type guide plate + medium-temperature laminar flow in the peripheral holes and slots" was invented. Finally, the parametric scanning simulation was carried out to optimize the flow angle θ of the L-type guide plate using the N-CFD model. The results show that, firstly, the N-CFD model can accurately simulate the temperature distribution (P1 = 0.05) and the motion of drying particles in the drying tower. Secondly, the optimized new air inlet mechanism with the L-type guide plate flow angle θ = 47° can even out the temperature and particle distribution in the drying tower, which meets the "two-stage theory of spray drying." Finally, under the premise of ensuring the drying efficiency, the survival rate of MSJA spray drying was increased from 42.6% to 82.24%, which achieved the objectives of low sticking wall, high efficiency and high survival rate of spray drying MSJA.

Topics & Concepts

Spray dryingTowerComputational fluid dynamicsProcess (computing)Process engineeringMaterials scienceEnvironmental scienceEngineeringChemical engineeringComputer scienceStructural engineeringAerospace engineeringOperating systemMicroencapsulation and Drying ProcessesFood Drying and ModelingFreezing and Crystallization Processes