On May 14th, technical experts from SLB-APS, SLB China, and SCP-YB projects had in-depth exchanges and discussions with the technical team of Panlong Gas Production Plant on topics such as fracturing process optimization, unconventional reservoir fracturing research, fracturing design workflow, intelligent oil and gas field construction planning and case analysis. The technical seminar not only presented cutting-edge global achievements, but also created an innovative model of "localization of international experience and systematization of single point technology" for the YB project through the full chain deduction of "problem solution practice".

Edgar Fernandez, the development director of SCP-YB project and technical representative of SLB, systematically analyzed the practical experience of "tight cutting and fracturing process optimization" in the Palize project in Canada, providing a process upgrade path that can be referenced and referenced for the transformation of tight sandstone reservoirs in Yanbei.

APS Chief Production Engineer Kevin Mullen uses the example of the Banduria Qinsul project in Argentina to deeply deconstruct the "unconventional fracturing and completion design evolution logic". The "Economic Crack Network Design Model" proposed by it quantitatively evaluates the correlation between crack complexity and development benefits, helping to shorten the project investment return cycle.

SLB China fracturing technology expert Luo Yin demonstrated an intelligent fracturing design workflow that integrates geological modeling, parameter simulation, and real-time feedback systems, greatly improving the efficiency of single well design.

The "digital twin oil and gas field" architecture shared by Cai Xingxing, the digital business manager of SLB China, has achieved a significant reduction in real-time error rate in fracturing construction in Changqing Oilfield through the construction of a virtual production system using the Internet of Things and big data, verifying the revolutionary improvement of engineering accuracy by digital technology.