Given the composition of natural: Components C1 C2 C3 H2S CO2 NaCl % Molar 74 8 4 5 7 2 This gas is contacting with an aquifer that contains 2% of NaCl. The conditions are P = 1,500 psi, T = 100F and the volumetric flow rate is in standard square cubic feet and equal to, Q=10804620 ) The organization of the report (Introduction, results, discussion, conclusion and references) (3 marks) Find the water content at the given conditions and the temperature of formation of hydrates (4 marks) Use the Ping Robinson equation of state to find the flow rate at the given conditions. (2 marks) The gas should me dried to OoT dew point. Find the water that should be removed. (3 marks) Do a design of a molecular-sieve dehydration system of two towers with down flow adsorption in one tower and up-flow regeneration in the order. Use 4A molecular sieve of 1/16 "beads. a) Use a pressure drop = 0.33 psi/ft and determine the bed diameter in feet. (3 marks) b) Determine the bed depth using method one that we developed in the lecture. (3 marks) Determine the heat need for regeneration. (3 marks)

Given the composition of natural: This gas is contacting with an aquifer that contains 2% of NaCl. The conditions are P=1,500 psi, T= 100F and the volumetric flow rate is in standard square cubic feet and equal to, Q=10604620scf - The organization of the report (Introduction, results, discussion, conclusion and references) (3 marks) - Find the water content at the given conditions and the temperature of formation of hydrates (4 marks) - Use the Ping Robinson equation of state to find the flow rate at the given conditions. ( 2 marks) - The gas should me dried to 0oT dew point. Find the water that should be removed. (3 marks) - Do a design of a molecular-sieve dehydration system of two towers with down flow adsorption in one tower and up-flow regeneration in the order. Use 4A molecular sieve of 1/16 beads. a) Use a pressure drop =0.33psi/ft and determine the bed diameter in feet. ( 3 marks) b) Determine the bed depth using method one that we developed in the lecture. ( 3 marks) - Determine the heat need for regeneration. ( 3 marks)