摘要
随着科学的进步和经济的发展,我国的冶金技术在飞速的成长,然而冶金是一门非常消耗资源和能源的工业。针对上述情况,对冶金电气节能负载高精度控制技术进行了研究,并建立了自适应线性遗传算法计算模型,将计算结果与传统的节能算法进行对比,结果表明:自适应线性遗传算法节能效果明显,从而证明自适应线性遗传算法在冶金电气设备节能方面具有明显的优越性。
With the progress of science and the development of economy, metallurgical technology in our country is growing rapidly, butmetallurgy is an industry that consumes resources and energy very much. In view of the above situation, the high precision control technologyonmetallurgical electrical energy saving is researched, and an adaptive genetic algorithm to calculate the linear model is set up, the calculatedresults were compared with the traditional algorithm. The results show that the effect of adaptive linear genetic algorithm of energy saving isobvious, which proved that the adaptive genetic algorithm has obvious advantages in energy-saving baking metallurgy electrical equipment.
作者
张宝林
李欣
ZHANG Bao-lin;LI Xin(Dexing Copper Mine, Jiangxi Copper Corporation, Dexing 334224, Jiangxi, Chin)
出处
《铜业工程》
CAS
2018年第2期84-87,共4页
Copper Engineering
关键词
冶金电气
电气节能
节能原则
高精度控制
自适应线性遗传算法
metallurgical electric
electric energy conservation
energy-saving principle
high precision control
Adaptivegenetic algorithm is linear