The Jujur Field's reservoir at a pressure 4000 psia and temperature of 200 °F has produces gas tooil ratio of 600 scf/STB. The oil produced has a gravity of 42 °API. Calculate pseudo-density ofreservoir liquid (Ib/euft). The produce fluid has the following composition (Table 3).Table 3: Fluid compositionCompositionMole fractionMethane0.71Ethane0.13Propane0.08N-Butane0.05N-Pentane0.02N-Hexane0.01Σιotal -1.00Density C,H14 at 60°F and 14. 7 psia = 41.3 lb/cuft

Answered: Image /qna-images/answer/ac3efbd2-434d-4306-9e9b-8611e734ab34.jpg

Answered: The Jujur Field's reservoir at a…

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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21. A large containment is filled with steam, air, and nitrogen. The containment also has a pool of water, which is sprayed in the containment atmosphere. Heat is added to the con- tainment at a specified rate. Use the given data to find a) the initial containment pressure and b) the time it takes for the containment pressure to reach the pressure limit of 145 psia (1 MPa). Total mass of water (water in the pool and steam) m,, = 3.42E6 lbm (1.55E6 kg) Water-steam quality x = 0.03 Air mass m, = 0.132E6 lbm (6E4 kg) Nitrogen mass m, = 2200 lbm (998 kg) Containment initial temperature T; = 688 R (109 C) Initial relative humidity ø = 100% Rate of heat addition to containment atmosphere Q = 1.02E8 Btu/h (30 MW) [Ans.: 7.66 h].
An open graduated cylinder at 25 °C is filled with mercury and water. The height of mercury is 7.0 cm and the water is 5.6 cm. Calculate the pressure at the bottom of the test tube (kPa) if the atmospheric pressure is 755 mm Hg. (Specific gravity of mercury and water are 13.6 and 1.0 respectively). Report answer in kPa
Nitrogen gas enters a 0.450 m diameter pipe at 30.0 °C, 2.60 atm (absolute), and 6.30 m/s. The pipe rises 24.0 ft and then falls 99.0 ft. The nitrogen gas exits the pipe at 30.0 °C and 1.10 atm (absolute). The ultimate goal is to find AEK and AEp in the process. Assume N₂ behaves ideally. What is V₁, the volumetric flow rate of nitrogen gas into the pipe section? V₁ = 1 What is m, the mass flow rate into the pipe? z, ft T, °C P, atm (absolute) u, m/s z, ft T₂ °C P, atm (absolute) u, m/s m³/s

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