摘要
随着我国“双碳”能源目标的提出,传统PID控制已经很难适应现有火电机组的控制。因此,提出加速型工程最速比例-积分(AEFPI)控制器,显著提高了反馈控制性能。文章首次揭示AEFPI机理,通过仿真实验和数学计算分析AEFPI控制特性,给出AEFPI在提高反馈控制性能上实质性进步的理论依据。最后,通过难控过程的实际应用进一步验证了AEFPI的先进性。
Considering the fact that with the proposal of China’s carbon peak and carbon neutrality energy goals,the traditional PID control fails to adapt to the control of thermal power unit.In this paper,an accelerated engineering fastest proportional-integral(AEFPI)controller was proposed to significantly improve feedback control performance.In addition,the AEFPI’s mechanism was revealed,including making using of both simulation experiment and mathematical calculation to analyze AEFPI’s control characteristics and present a theoretical basis for AEFPI’s substantial progress in improving feedback control performance.Finally,the practical application proved AEFPI’s advancement in control process.
作者
陈锦攀
赵兵
孙闻
罗滇生
廖峰
王伟
梁晓兵
王玲
李德波
CHEN Jin-pan;ZHAO Bing;SUN Wen;LUO Dian-sheng;LIAO Feng;WANG Wei;LIANG Xiao-bing;WANG Ling;LI De-bo(Electric Power Research Institute,Guangdong Power Grid Co.,Ltd.;College of Electrical and Information Engineering,Hunan University;Foshan Power Supply Bureau,Guangdong Power Grid Co.,Ltd.;China Southern Power Grid Power Technology Co.,Ltd.)
出处
《化工自动化及仪表》
CAS
2023年第6期745-753,874,共10页
Control and Instruments in Chemical Industry
基金
国家自然科学基金重点项目(批准号:51376161)资助的课题
中国南方电网有限责任公司科技项目(批准号:GDKJXM20222593)资助的课题
中国南方电网有限责任公司科技项目(批准号:GDKJXM20210174)资助的课题。
