第 40 卷     第 6 期                        摩  擦  学  学  报                                  Vol 40   No 6
            2020  年 11  月                                Tribology                                   Nov, 2020

            DOI: 10.16078/j.tribology.2020061



                固-液两相流黑水管道冲蚀磨损的数值模拟研究




                                                 乔小溪, 单  斌, 陈  平       *
                                            (北京科技大学 机械工程学院，北京 100083)

                摘   要: 煤气化黑水处理系统管道由于其流体介质高含固体颗粒和腐蚀性介质，且工作在高温、高压差环境中，极易
                受到冲蚀磨损和腐蚀的耦合作用而失效，影响其服役寿命. 采用计算流体力学(CFD)方法数值模拟研究了煤气化黑
                水处理系统固-液两相流管道的冲蚀磨损行为和机理，以及流体介质速度和固体颗粒粒径对管道冲蚀磨损的影响规
                律，并分析了盲通管和涡室结构对弯管冲蚀磨损行为的优化改善效果. 研究结果显示，煤气化黑水处理系统管线的
                冲蚀高危区主要分布在弯管外拱和变径管等结构突变区域；管道冲蚀磨损行为与其内部流体的运动和颗粒冲击特
                性有关；管道的冲蚀率均随着流体速度的增加而加剧，而粒径对弯管和变径管冲蚀率的影响并非单调关系，这与颗
                粒受力作用有关；弯管优化分析显示，涡室结构可以降低弯管的最大冲蚀率，减缓弯管的冲蚀磨损.
                关键词: 黑水处理系统; 固-液两相流; 数值模拟; 冲蚀磨损; 失效机理
                中图分类号: TG172                    文献标志码: A                   文章编号: 1004-0595(2020)06–0726–09



                     Simulation Study on the Erosive Wear of the Black Water
                                       Pipeline with Solid-Liquid Flow


                                            QIAO Xiaoxi, SHAN Bin, CHEN Ping *


                   (School of Mechanical Engineering, University of Science and Technology of Beijing China, Beijing 100083, China)
                 Abstract: For the pipes of coal gasification black water treatment system, due to the high contents of both solid particles
                 and corrosive elements in the flowing fluid media, and their high temperature and high-pressure difference working
                 environment, the inner surface of the pipes are extremely vulnerable to corrosion and erosive wear, thus affecting their
                 service life. In the paper, the computatioanal fluid dynamics method was used to study the erosion behaviors of the solid-
                 liquid two-phase flow pipeline in the coal gasification black water system. And the influence rules of flow velocity and
                 solid particle size on the erosion rates of the pipes were also investigated. Meanwhile, two modified elbows with blind
                 pipe and vortex chamber were analyzed respectively to extend the service life. Results indicated that the primary erosion
                 failure positions of the tested pipeline located in the structural abrupt position, such as the extrados of the elbow and the
                 Variable diameter pipe. The flow behaviors of continuous liquid phase inside the pipeline and the impact effect of the
                 discrete solid particles on the pipe wall played a great role in the pipeline erosion. Both the erosion rates of the elbows
                 and variable diameter pipe increased as the fluid velocity increased; however, the influence rules of solid particle size on
                 the erosion rate were not monotonic. A vortex chamber added to the elbow decreased the maximum erosion rate, thus
                 alleviating erosive wear of the elbow and prolonging its service life.
                 Key words: black water treatment system; solid-liquid two-phase flow; numerical simulation; erosive wear; failure
                 mechanism


            Received 13 April 2020, revised 30 September 2020, accepted 13 October 2020, available online 28 November 2020.
            *Corresponding author. E-mail: chenp@ustb.edu.cn, Tel: +86-10-62332357.
            The project was Supported by National Key R&D Program of China (2018YFC0810500), the Training Programs Funds for Young
            Teaching Talents of University of Science and Technology Beijing (2018JXGGRC) and the Fundamental Research Funds for the
            Central Universities (FRF-TP-19-004A3).
            国家重点研发计划项目(2018YFC0810500)，青年教学骨干人才培养计划(2018JXGGRC)和中央高校基本科研业务费项目
            (FRF-TP-19-004A3)资助.