Evaluation and optimization of the integrity of HDD installed pipelines

HDD安装管道完整性评估与优化

• 批准号: 514954-2017
• 负责人: Bayat, Alireza
• 金额: $ 2.91万
• 依托单位: University of Alberta
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=644831
• 关键词: Evaluation; optimization; integrity; HDD; installed

Horizontal Directional Drilling (HDD) is used to install pipelines and utilities beneath waterbodies, roads, and other surface obstacles where traditional open-cut construction is not feasible. The HDD process includes drilling a borehole along a pre-determined alignment, enlarging the borehole, and installing the pipeline by pulling it inside the borehole. The pipe being installed is subjected to a complex combination of stresses and strains that are not well understood. The stresses/strains that develop during installation have an impact on lifetime of the pipe operation. A more detailed investigation of the HDD installation requires evaluating axial and circumferential stresses, as well as the imposed strain on the pipe section as it is forced to conform to the borehole geometry. This research will include the analysis of stress/strain experienced by the pipe based on strain gauge measurements during actual HDD installations to evaluate the structural safety of pipelines.*This research program will use a strain-measurement tool to record longitudinal and circumferential strains throughout the pipe installation under various conditions and different pipe sizes. This data will be analyzed to calculate axial, bending, hoop, thermal, and shear stress. These findings will be compared with theoretical calculations recommended by current industry standards. This analysis will provide a basis to investigate the application of more recent and advanced design codes for HDD installed pipelines, and identify any areas that may improve the current design guidelines. The stress/strain analysis will also include pipe lifting operations while the pipe section is being lifted and aligned with the borehole. A separate strain monitoring system will be conducted to measure the actual pipe strain where the pipe bends vertically, horizontally, and sometimes a combination of the two. Finite Element (FE) models will also be developed to be compared against the actual measurements. These models will be verified against field measurements, and the modeling input parameters will be calibrated. These calibrated parameters will be the basis for future models and designs.

水平定向钻进(HDD)用于在水体、道路和其他地面障碍物下安装管道和公用设施，这些地方传统的露天施工是不可行的。HDD工艺包括沿预定的路线钻孔，扩大钻孔，并通过将管道拉入井内来安装管道。正在安装的管道承受着复杂的应力和应变组合，这些组合并不是很好地理解。安装过程中产生的应力/应变会影响管道运行的寿命。对HDD安装进行更详细的调查需要评估轴向和周向应力，以及在迫使管段符合井眼几何形状时对管段施加的应变。本研究将包括根据实际HDD安装过程中的应变计测量结果对管道所经历的应力/应变进行分析，以评估管道的结构安全性。*本研究计划将使用应变测量工具记录不同条件和不同管道尺寸下管道安装过程中的纵向和周向应变。将对这些数据进行分析，以计算轴向应力、弯曲应力、环向应力、热应力和剪应力。这些发现将与现行行业标准推荐的理论计算进行比较。这一分析将为研究应用最新和先进的HDD安装管道设计规范提供基础，并确定可能改进当前设计指南的任何领域。应力/应变分析还将包括在提升管段并与井眼对齐时的管道提升操作。将进行单独的应变监测系统来测量管道的实际应变，其中管道垂直、水平弯曲，有时两者兼而有之。还将开发有限元(FE)模型，将其与实际测量结果进行比较。这些模型将根据现场测量进行验证，并将校准建模输入参数。这些校准的参数将成为未来型号和设计的基础。