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Lingbo Kong1,Ziliang Zhang,Yang Song,Junzhong Chen 한국펄프·종이공학회 2023 펄프.종이기술 Vol.55 No.4
With the purpose of improving molded pulp product (MPP) drying process, the present work investigated the microwave drying performance of MPP under the power level of 500 W and compared that with the convective drying method. The drying kinetics, the effective moisture diffusivity, and the energy consumption of the two drying methods were evaluated respectively. It was found that the drying time was shortened from 22.0 min for convective drying to 16.0 min for microwave drying due to 27% of drying rate enhancement, and the effective moisture diffusivity was increased from 3.01×10-10 to 4.49×10-10 m2/s. Additionally, 88% of energy consumption could be saved in the microwave drying process. An artificial neural network (ANN) was employed to predict the moisture removing kinetics of MPP. The results revealed that the ANN modeling could be used to predict the drying kinetics of MPP effectively and then determine the moisture content in the drying process.
Mathematical Modeling of Drying Kinetics for Pulp Sheet Based on Fick’s Second Law of Diffusion
Lingbo Kong,Xing Yang,Zhihao Hou,Jixian DONG 한국펄프·종이공학회 2020 펄프.종이기술 Vol.52 No.2
In this study, we investigated the drying characteristics for pulp sheet at different hot air temperature (80, 90, and 100℃). The drying kinetics were modeled using one- to five-term solutions of Fick’s second law of diffusion at different drying conditions. It was found that these models underestimated the initial drying stages and overestimated the final drying stages. Meanwhile, the values of the diffusion coefficient tended to stabilize when the series terms more than three. In order to improve the accuracy of the mathematical models, the modified one- to three-term models were also used to describe the drying kinetics. The results showed that modeling data was agreed with the experiment data better than the series solution models based on Fick’s second law of diffusion. Besides, the accuracy improved dramatically as the terms of the model increased. The minimum diffusion coefficient was 0.996 for the modified three-term model. It was concluded that the modified model could simulate the pulp sheet drying process under the conditions studied.
Sequential Modeling of Paper Drying Process to Reduce Thermal Energy Use, Part 2: Simulation Results
Kong Lingbo,Jiahao Li,Ziliang Zhang 한국펄프·종이공학회 2022 펄프.종이기술 Vol.54 No.5
Paper drying is one of the unit operations that consumes the most amount of thermal energy in a papermaking machine. In this paper, a theoretical model for paper drying process was developed using the sequential modeling method based on the conservation laws of mass and energy. Aimed at simulating thermal energy flow, the overall framework of the drying model was constructed according to the specific drying process of a newsprint machine. It was composed of eight basic modules based on their different functions in the paper drying process, i.e., cylinder group module, steam separation module, surface condensation module, fan module, heat recovery module, air heating module, paper sheet module, and hood module. The results showed that it could be used to simulate the material and energy flow of each module, as well as the whole drying process in a more comprehensive manner with integrated thermal energy use and drying performance information. In addition, the effects of operating parameters, such as supply air temperature and exhaust air humidity, on thermal energy use in the newsprint drying process were also simulated. This work also demonstrates that the sequential modeling method is instructive to reduce thermal energy use for the industrial paper drying process.
Refining Mechanism of Combined Refining Plates with Different Bar Angles
Xiya GUO,Jixian DONG,Huan LIU,Chuanwu DUAN,Ruifan Yang,Kai QI,Lingbo Kong 한국펄프·종이공학회 2020 펄프.종이기술 Vol.52 No.2
The refining plate is a key component of the disc refiner, which plays an important role in improving fiber morphology and its properties during pulp refining. In this study, the mixed pulps of bleached softwood and unbleached hardwood pulp was refined by the combined refining plates with different bar angles. Beating degree, fiber length, fiber width, fiber length distribution and fiber fibrillation were analyzed to explore the influences of different combinations of refining plates on the improvement of pulp and fiber properties. The results indicated that the combined refining plate of 0° and 5° had the more significant changes in fiber length distribution, beating degree and fiber morphology than that of the combined refining plate of 0° and 0° as refining proceeded. The influences of the combined refining plate of 0° and 39° on the fiber length components, beating degree and fiber morphology were weakest compared to the remaining two. This study is of positive significance for the design and the selection of refining plates.
No-Load Power of Disc Refiner in Low Consistency Refining
Huan LIU,Jixian DONG,Xiya GUO,Bo Wang,Qiao Lijie,Chuanwu DUAN,Kai QI,Lingbo Kong 한국펄프·종이공학회 2020 펄프.종이기술 Vol.52 No.2
Disc refiner is the key equipment in pulping and papermaking process, and the no-load power of disc refiner will directly affect the refining efficiency. So the refining efficiency and energy saving of the refining process will be promoted through theoretical and experimental study on it. In this paper, the measurement and the theoretical calculation method of the no-load power of disc refiner in low consistency refining were summarized. And the effects of pulp properties, control parameters and bar parameters of refining plate on no-load power were analyzed. The main research direction of the no-load power of disc refiner was proposed which has a positive significance on energy saving and pulp quality improvements of refining process.