近年来随着我国社会经济快速发展,对游梁式抽油烟机的节能方面有了更为清楚的认识和了解。建立了后驴头为单圆弧,首先我们知道,游梁式抽油机对于原油的开采方面起着非常重要的作用,可以说是原油开采最为重要的设备设施。因此游梁式抽油烟机是原油开采中重要的组成部分。且在各个方面都有着非常突出的贡献。在当下,主要进行节能的办法是对每一台抽油机的电容器进行改进,以保证进行电容器的固定无功率补偿。而这种传统的补偿方式具有一定的漏洞和缺陷。本文在对几种常见的补偿措施的基础上,提出动态无功补偿的方案,通过对动态的跟踪式的无功补偿装置的设计,同时通过系统的负载率以及无功的需求。从而控制了电容器,详细地分析了这种设计的利弊之处,从而针对其优点与不足进行深入式的研究与分析。 In recent years, with the rapid social and economic development in our country, we have got a clearer understanding and understanding of the energy-saving aspects of a beam-type range hood. After the establishment of a donkey head after a single arc, first of all we know that the beam pumping unit for the exploitation of crude oil plays a very important role, it can be said that the most important crude oil extraction equipment and facilities. Therefore, the beam type range hood is an important part of the crude oil exploration. And in all aspects have a very prominent contribution. In the moment, the main energy saving method is to improve the capacitor of each pumping unit to ensure that the capacitor is fixed without power compensation. However, this traditional method of compensation has some loopholes and defects. On the basis of several common compensation measures, this paper proposes a scheme of dynamic reactive power compensation. Through the design of a dynamic tracking reactive power compensation device, the load ratio of the system and the reactive power demand are both passed. Thereby controlling the capacitor, a detailed analysis of the advantages and disadvantages of this design, so as to the advantages and disadvantages of in-depth research and analysis.