Production Chemistry - OGPC

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Setting comprehensive inventory goals & objectives; Understanding carrying costs and economic order quantity theory; Improving Material identification and coding; Segmenting inventory for analysis; Using formal procedures for making the decision to stock; Determining safety stock levels and order points; Improving Min/max systems and settings; Understanding and using material forecasts; Establishing a warehouse scorecard; Creating best practices in the physical control of materials; Measuring record accuracy and improving cycle counting systems; Increasing the use of warehouse technologies; Improving warehouse safety and security; Setting up an investment recovery program; Preventing and reducing surplus materials; Understanding Investment recovery techniques; Using the disposition value chain for investment recovery

Introduction: philosophy and history; Geophysical fundamentals; Breaking out operational sequences; Introduction to fault interpretation; Chronostratigraphy construction and interpretation; Sea level curves, accommodation space, and cycle orders; Vail sequence theory and sequence hierarchy; Carbonate sequences; Siliciclastic sequences; Seismic Facies; Paleo-environmental analysis; Geohistory reconstruction; Optimizing exploration