Dubai, United Arab Emirates
▪️Holder of a MSc degree in Hydraulic and Fluids engineering from INP-ENSEEIHT (Toulouse, France) with more than 10 years experience worldwide in several Upstream Oil & Gas domains. ▪️Head-to-toe safety solution provider (Personal Protective Equipment). ▪️Working for Red Wing, the leader in the PPE industry!
• Working onsite alongside with the well test crew. My responsibilities were as follows: o Preparing/maintaining equipment and configuring the DAQ system for the well test job. o Dealing with client pre, during and post job. o Monitoring data and determine forward action in regards to testing procedure by liaising with onsite petroleum engineer. o Providing daily and final reports in regards to well test data. • Ensuring that all activities are performed in compliance with HMS (Halliburton Management System) processes. • Ensuring that customer satisfaction and job performance data are gathered. Contacting customer for performance follow-up and to plan future work. • Promoting safety awareness and environmental consciousness and ensuring compliance with all applicable HSE procedures and regulations. Promoting and taking an active part in the quality improvement process. • Providing technical and logistical support to the customer and to the crew on locations. • Making, reviewing and approving final Well test reports before sending to the client. • Adhering and improving Halliburton Management System (HMS) and work processes.
• Managing daily rig operations, 3rd party services and equipment/services look ahead. • Dealing with Logistics/Procurement (Mobilization, Demobilization to the offshore rig) to make sure all equipment are delivered on time for the job. • Following up and reporting daily to the client about the rig operations. • Dealing/meeting and following up daily with the client and crew members, both on the operation and also on the technical side, in order to: o Make sure to deliver highest technical quality job with respecting the Design of Service and Halliburton procedures and policy. o Achieve zero safety incidents, zero environmental incidents and zero nonproductive time. • Promoting safety awareness and environmental consciousness and ensuring compliance with all applicable HSE procedures and regulations. • Ensuring that all activities are performed in compliance with HMS (Halliburton Management System) processes.
• Managing a team of engineers and operators and making their planning. • Ensuring that all activities are performed in compliance with HMS (Halliburton Management System) processes. • Ensuring that customer satisfaction and job performance data are gathered. Contacting customer for performance follow-up and to plan future work. • Promoting safety awareness and environmental consciousness and ensuring compliance with all applicable HSE procedures and regulations. Promoting and taking an active part in the quality improvement process. • Providing technical and logistical support to the customer and to the crew on locations. • Making, reviewing and approving final Well test reports. • Dealing/meeting and following up daily with the client and crew members in order to: a. Make sure to deliver high quality job with respecting the Design of Service and Halliburton procedures and policy. b. Achieve zero safety incidents, zero environmental incidents and zero nonproductive time. • Adhering and improving Halliburton Management System (HMS) and work processes. • Continuously Verifying performance, training and following up the Competency level of the crew members.
Developed Beicip Franlab/IFP OpenFlow software suite and modules, such PumaFlow (IFP reservoir simulator) and CondorFlow (IFP Assisted history matching software). During this assignment I undertook reservoir studies, reservoir simulator specifications, visualisation, online documentation, reservoir simulator configuration, software testing, client support, client assistance and reservoir simulator trainings on PumaFlow.
Studied and optimized the cuttings transport phenomenon in an annular (diphasic flow; fluid/solid particles). The aim of this Internship is to make a bibliographic study then develop a tool on MATLAB (Graphical interface) able to make easily the estimation of the annular dimensions and calculate the minimum transport flow rate for the estimated annular dimensions.
Realization of a software developed with Visual Basic (Macro Excel) which is able to process text files, calculate the porosity and saturations and plot their profiles on an entire core. (Training realized in Petrophysical department).