带空心切削齿的新型PDC钻头:提高ROP,延长使用寿命

Zhang Hongying, Huihui Chen, Feng Liu, Na Wang, Huang Yanfu, Zhimeng Fang, X. Pan
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引用次数: 0

摘要

提出了一种利用液压润滑和水射流原理提高机械钻速的空心切削齿PDC钻头设计方案。工程结果表明,与当今钻井行业常用的固体固定切削齿相比,它具有优势。新型PDC钻头的结构如下:每个切削齿包含一个特定的流体通道,这是量身定制的;钻头体内含有许多流体通道;与现有的常规PDC钻头相比,该钻头的主要特点是:切削齿是中空的,每个切削齿的中心都有一个流体通道;并且钻头本体具有流体通道,流体通道与每个中空的切削齿连通,使钻井液从钻头内部流向每个切削齿的外部。PDC钻头的失效主要是由于复合切削齿的过早磨损或裂纹;磨损或裂纹是由于机械和热效应造成的。提高刀具的使用寿命可以有效地提高钻头的使用寿命。根据热应力分析,摩擦热集中的位置在切削齿的中心,这将导致热裂纹的产生和扩展,从而导致切削齿的失效和ROP的损失。因此,带流体通道的切削齿将改善热集中膨胀的方式,从而延长钻头的使用寿命,减少起下钻次数,提高单趟钻进进尺,从而提高钻井效率。在钻井作业中,岩屑不能及时流出,有可能积聚在钻头上,即俗称的泥球现象。泥球的存在会降低钻头的切削能力,降低机械钻速。采用空心切削齿的新型PDC钻头具有自冷却和自清洁功能,可以缓解热效应,而切削齿微孔的加压流具有水射流的作用,从而提高了机械钻速。新型PDC钻头的新颖之处在于能够解决当今恶劣钻井条件下机械钻速低、使用寿命短的问题,满足单趟下入完成总深度的要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New PDC Bit with Hollowed Cutters: with Increased ROP and Longer Service Life
A novel design of PDC bit with hollowed cutters is presented that uses the principle of hydraulic lubricating and water jetting mechanism to improve ROP. Engineering results show its advantage compared to solid fixed cutters which are commonly used in today’s drilling industry. The structure of the new PDC bit is as follows: each cutter contains a specific fluid channel, which is tailor made; the bit body contains many fluid channels; Compared with the existing conventional PDC bit, the main distinctive features are: the cutters are hollowed, each cutter contains a fluid channel in the centre of itself; and the bit body has fluid passages which are communicating with each hollowed cutter, allowing the drilling fluid flows from the inside of the bit to the outside of each cutter. The failures of a PDC bit are mostly due to premature wear or cracks of compound cutters; the wear or cracks are due to mechanical and thermal effects. To improve the service life of cutters can effectively increase the life of the drill bit. According to thermal stress analysis, the position where the frictional heat concentrated is in the centre of the cutter, which will result in the generation and expansion of thermal cracks, which in turn leads to failure of the cutter and loss of ROP. Therefore, the cutter with fluid passage will improve the way of thermal concentration and expansion, thereby prolonging the life of the drill bit, reducing the number of trips, improving single run drilling footage, therefore the drilling efficiency is increased. During the drilling operation, the rock cuttings cannot flow out timely, and may accumulate on the drill bit, which is commonly referred to as mud balling. The presence of mud balling will reduce the cutting capability of the drill bit and decrease the ROP. The new PDC bit with hollowed cutters has self-cooling and self-cleaning functions to mitigate the thermal effect, while the pressurized flow from the micro-hole of the cutter has the effect of water jetting, which in turn increases the ROP. The novelty of the new PDC bit is in the capability to solve the issues of low ROP and short service life of today’s tough drilling conditions, to meet the requirement of a single trip to complete the total depth.
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