[1]景 杰.考虑气固两相流颗粒团聚效应的输灰系统最佳输送流速控制算法[J].机械与电子,2025,(12):18-23.
 JING Jie.Optimal Conveying Flow Rate Control Algorithm for Ash Conveying System Considering the Agglomeration Effect of Gas-solid Two-phase Flow[J].Machinery & Electronics,2025,(12):18-23.
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考虑气固两相流颗粒团聚效应的输灰系统最佳输送流速控制算法()
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《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
期数:
2025年12期
页码:
18-23
栏目:
研究与设计
出版日期:
2025-12-23

文章信息/Info

Title:
Optimal Conveying Flow Rate Control Algorithm for Ash Conveying System Considering the Agglomeration Effect of Gas-solid Two-phase Flow
文章编号:
1001-2257 ( 2025 ) 12-0018-06
作者:
景 杰
北京京能电力股份有限公司,北京 100041
Author(s):
JING Jie
( Beijing Jingneng Electric Power Co. , Ltd. , Beijing 100041 , China )
关键词:
气固两相流颗粒团聚输灰系统流速控制质量守恒
Keywords:
gas-solid two-phase flow particle agglomeration ash conveying system flow rate control conservation of mass
分类号:
TP273
文献标志码:
A
摘要:
针对气固两相流颗粒团聚效应改变局部流场分布、导致流场不均进而影响流速控制准确性的问题,提出考虑气固两相流颗粒团聚效应的输灰系统最佳输送流速控制算法。基于输灰系统的工作特性,建立了输灰系统的输送模型,并通过引入传递函数来推导清水和砂水混合物在管道中的流速局部关系;利用仿真软件建立了颗粒碰撞模型,并结合单颗粒运动方程和质量守恒方程,对气固两相流中的颗粒团聚效应进行了数值模拟;构建颗粒空间频谱波幅变化图,据此得出颗粒信息,以监测输灰系统输送流速;构建了 PID 控制模型,并利用损失函数和梯度下降法对模型进行了优化,以得到最佳输送流速调整量,从而实现对输灰系统最佳输送流速的控制。实验结果表明,该算法控制下的输送流速偏差小于 0.3 m / s ,显示出较高的控制准确性,能够有效保证输灰系统的稳定运行。
Abstract:
To address the issue of particle agglomeration effects in gas solid two-phase flow altering the local flow field distribution , causing flow field unevenness , and thereby affecting the accuracy of flow velocity control , we propose an optimal conveying flow velocity control algorithm for ash conveying systems that takes into account the particle agglomeration effects in gas solid two-phase flow.Based on the working characteristics of the ash conveying system , this study established a conveying model of the ash conveying system , and derived the local relationship between the flow velocity of the mixture of clean water and sand water in the pipeline by introducing a transfer function.This study used simulation software to establish a particle collision model , and combined the single particle motion equation and the mass conservation equation to numerically simulate the particle agglomeration effect in gas solid two-phase flow.A particle spatial frequency spectrum wave amplitude change diagram was constructed to obtain particle information , which was used to monitor the conveying flow velocity of the ash conveying system.A PID control model was constructed , and the model was optimized using loss function and gradient descent method to obtain the optimal conveying flow velocity adjustment amount , thereby achieving control of the optimal conveying flow velocity of the ash conveying system.The experimental results show that the conveying flow velocity deviation under the control of this algorithm was less than 0.3 m / s , displaying high control accuracy , and it can effectively ensure the stable operation of the ash conveying system.

参考文献/References:

[ 1 ] 蒋爽,邓岚,倪福生,等 . 基于 BPPID 的疏浚管道稳定流速控制[ J ] . 计算机测量与控制, 2022 , 30( 7 ): 135-140 , 147.

[ 2 ] 高潇雨,邵春发,赵晓东 . 粗颗粒管道输送临界流速数值分析[ J ] . 水利水电技术(中英文),2024 , 55(增刊2 ): 14-21.
[ 3 ] EDIRISINGHE E A A V , PERERA M S A , ELSWORTH D , et al.Particle transport in fractured geo-energy reservoirs considering the effect of fluid inertia and turbulent flow : a review[ J ] .Journal of rock mechanics and geotechnical engineering , 2025 , 17 ( 3 ): 1906-1939.
[ 4 ] 蒋爽,刘世纪,高礼科,等 . 基于神经网络 PID 的疏浚管道泥浆流速控制[ J ] . 计算机测量与控制, 2023 , 31( 11 ): 198-203 , 220.
[ 5 ] 魏义,魏长赟,袁斌 . 绞吸疏浚船泥砂管道输送流速稳定控制研究[ J ] . 南京理工大学学报, 2021 , 45 ( 3 ): 332-337 , 351.
[ 6 ] 陈威,王川,王丽伟,等 . 侧深施肥装置三通管气固两相流仿真与试验[ J ] . 中国农机化学报, 2024 , 45 ( 3 ): 74-80.
[ 7 ] 侯艳君,王庆辉,周甲伟,等 . 基于 CFD-DEM 的气力输送变径管中颗粒流动特性分析[ J ] . 矿冶工程, 2023 ,43 ( 6 ): 6-10.
[ 8 ] 周甲伟,郭小乐,巴涵,等 . 基于 CFD-DEM 耦合数值模拟的垂直管道气力输送流型特性研究[ J ] . 工程热物理学报,2023 , 44( 9 ): 2464-2473.
[ 9 ] 王玉鑫,郝敏,牛壮,等 . 基于 CFD 的立式天然气弯管气固两相流冲蚀数值模拟分析[ J ] . 石油化工, 2024 ,53 ( 6 ): 832-838.
[ 10 ] 柯炎,王胜虎 . 基于火电机组的协同线性自抗扰协调控制策略[ J ] . 电子设计工程, 2024 , 32 ( 14 ): 100-104.
[ 11 ] 季经纬,蔡伟明,田志坚,等 . 超细干粉气固两相流在水平直管中的流动特性研究[ J ] . 消防科学与技术,2022 , 41 ( 10 ): 1445-1450.
[ 12 ] COJUHARI I.A PID tuning approach for inertial systems performance optimization [ J ] .Applied mathematics , 2024 , 15 ( 1 ): 96-107.

备注/Memo

备注/Memo:
收稿日期: 202- 07-14
基金项目:山西漳山发电有限责任公司项目( DL2024134 )
作者简介:景 杰 ( 1982- ),男,山西运城人,硕士,正高级工程师,研究方向为流体输送。
更新日期/Last Update: 2026-01-04