一、前言冷却循环水系统由于实际工作状态点往往偏离了最佳工况点,产生较大的无效阻力,存在着效率低、能耗大等问题。针对这一问题,运用系统纠偏技术,建立专业的水力数学模型以及参数采集标准,通过检测当前运行的实际工况参数,判断引起能耗增加的原因,通过分析和研究来找到最佳的工况点,并提出最佳的匹配方案。然后通过整改那些不利的因素,按最佳运行工况的参数定做高效节能泵来替换目前处于不利工况下、低效率运行的水泵,做到 First, the preface Cooling circulating water system as the actual working state points often deviate from the best conditions point, resulting in greater resistance, there is a low efficiency, energy consumption and other issues. In order to solve this problem, the author uses system correction technology to establish a professional hydraulic mathematical model and parameter acquisition standard. By detecting the actual operating parameters, the reasons for the increase of energy consumption are determined. Through analysis and research, the best working conditions Point, and propose the best match plan. Then through the rectification of those unfavorable factors, according to the parameters of the best operating conditions custom energy-efficient pumps to replace the current under unfavorable conditions, low-efficiency operation of the pump, so