The virtual simulation platform for drilling emergency drills in oil and gas fields builds and realizes the simulation and 3D simulation of drilling drill scenarios, equipment and facilities, personnel conditions, environmental conditions, accident occurrence and development process, and personnel emergency response process using technologies like 3D simulation, 3D interaction, and network communication. Interoperate.

 

Through this technology, it is possible to complete single-person and multi-person joint emergency response drills, simulate emergency response to common drilling accidents, and examine trainees' understanding of emergency response operations, emergency handling, task completion, and similar topics. Mention the drill evaluation as well as the issues and flaws with the drill procedure. It can be used to instruct and train drilling personnel in emergency response and rescue.

 

The system supports editing the drill plan, allowing users to choose between individual and team drill modes, specifying drill accident factors, and generating the drill process and assessment criteria based on those parameters. It supports teaching from several points, and the instructor terminal can be used to manage the computers taking part in the activity.

 

On the student end of the system, 3D simulation technology makes it possible for drilling personnel to receive the emergency reaction and rescue training they need when they encounter hazardous situations on the job site. provides two exercise options: teamwork and individual exercise. These can be utilized to test out and evaluate the exercise procedure. In order to make the simulation process as realistic as possible, the three-dimensional well site is realistic, the machinery is highly operational, and environmental sound elements are provided.

 

The training material is based on the industry's goal to implement training for rescue and escape, risk identification, emergency response, and emergency process simulation. The system allows multi-person collaborative drills, offers support for personnel training for different roles on the drilling site, and offers a comprehensive knowledge base for trainers to acquire and view pertinent knowledge in the practice mode.

 

The system can automatically collaborate with trainees to finish the drill project and enables role AI execution. The equipment can be operated using the interactive interface's rich details and positive user interaction. The multi-role information broadcast system evaluates the emergency response procedure and broadcasts the exercise process in real time. The simulation system makes use of CFD technology, which enables model calculations for phenomena like gas diffusion and flame combustion, and derives the accident process with plausible outcomes.