Tags :DBR

The AMSIM software is a specialized process program that simulates the removal of hydrogen sulfide (H2S), carbon dioxide (CO2), and mercaptans from natural gas and liquefied petroleum gas (LPG) streams, using amines and physical solvents. This software is backed by more than 20 years of laboratory data. By applying a rigorous non-equilibrium stage model and the Peng-Robinson equation-of-state, the AMSIM simulator provides simple, reliable, and efficient solutions including investigation of alternative process configurations and contacting solvents. This simulator also analyzes the sensitivity of the key operating parameters and provides a diagnostic optimization of gas and LPG sweetening units. The simulator also predicts acid gas removal over a full range of inlet conditions, process configurations, solvent types, and concentrations. The software...

dbrSOLIDSPredicting precipitation pointsdbrSOLIDS fluid analysis software is a Microsoft Windows-based application that predicts the thermodynamic precipitation point of waxes and asphaltenes with knowledge of reservoir fluid compositions. Module accuracy has been confirmed by laboratory testing. Precipitation of wax and asphaltene is manifested primarily through changes in temperature, pressure, and composition. Composition affects both, but temperature is more significant for wax precipitation, and pressure is more significant for asphaltenes. A flow assurance engineer enters composition and experimental results into the application for prediction and tuning of wax and asphaltene onset points. The results affect field operating strategies to improve well performance. Wax module calculationsThe dbrSOLIDS software wax (or paraffin) module is a thermodynamic equilibrium model that predicts wax precipitation conditions. A...

dbrSOLIDSPredicting precipitation pointsdbrSOLIDS fluid analysis software is a Microsoft Windows-based application that predicts the thermodynamic precipitation point of waxes and asphaltenes with knowledge of reservoir fluid compositions. Module accuracy has been confirmed by laboratory testing. Precipitation of wax and asphaltene is manifested primarily through changes in temperature, pressure, and composition. Composition affects both, but temperature is more significant for wax precipitation, and pressure is more significant for asphaltenes. A flow assurance engineer enters composition and experimental results into the application for prediction and tuning of wax and asphaltene onset points. The results affect field operating strategies to improve well performance. Wax module calculationsThe dbrSOLIDS software wax (or paraffin) module is a thermodynamic equilibrium model that predicts wax precipitation conditions. A...