Inverse and Risking Methods in Hydrocarbon Exploration: A Compendiummulti-science publishing, 2005 - 502 pàgines This book looks at how modern developments have enhanced the utility of basin analysis in hydrocarbon exploration. A major factor is modern computing power, which enables complex Monte Carlo-type calculations to be rapidly carried out; a second is the transfer of concepts from the economic arena to the theatre of hydrocarbon production, for example setting risking procedures to cope with data uncertainties. In addition now there are available powerful methods for handling the determination of parameters in the highly non-linear world of equations describing various facets of basin analysis. Th. |
Continguts
What Do We Need to Reduce | 45 |
Relative Contributions of Geological Factors to Uncertainty of | 79 |
Measures of Valueadded Information | 97 |
World Estimates of Hydrate Resources Basic Properties of Hydrates | 171 |
An Inverse | 225 |
Risking Basin Analysis Results I with Francisco RochaLegorreta | 347 |
Risking Basin Analysis Results III The Influence of Uncertain Geochemical | 365 |
Prediction of the Distribution Range of Deep basin gas Accumulations | 397 |
Oil and Gas Estimates for Arctic National Wildlife Refuge Area 1002 Alaska | 431 |
Epilogue | 501 |
Altres edicions - Mostra-ho tot
Inverse and Risking Methods in Hydrocarbon Exploration: A Compendium Ian Lerche Visualització de fragments - 2005 |
Frases i termes més freqüents
amount ANWR assessment basin analysis basin gas accumulation basin modelling Bbbl behaviour burial history calculations Chart Target Forecast Contribution to Variance critical pressure Cumulative Chart cumulative probability deep basin gas density deposition determine diapir distribution range dynamical equation erosion estimates evolution excess pressure fault Figure fluid pressure formation fracture gas charge available gas hydrate geochemical geological factors geological models geothermal gradient gm/cm³ hydrate body hydrocarbon migration inverse kerogen type kinetic layer Lerche lithology m³/km² Measured by Contribution methane fraction methane hydrate MyBP oil and gas OIL Charge Available outputs overpressure paleoheat flux parameter values permeability porosity predominant pathways present day probability distribution problem procedure production quantitative region relative contributions reservoir sedimentary basins sediments seismic Sensitivity Chart Target shale source rock temperature thermal conductivity thermal gradient thermal indicators Total GAS Charge Total OIL Charge uncertain variables variations vitrinite volatility Volumetrics