49 DST HW.docx ۱:۳۳ ما DST HW 1. Derive the diffusivity equation for one-dimensional, linear flow of a slightly compressible liquid. (5 marks) 2. Provide an illustration of diffusivity equations for various scenarios. (2 marks) 3. Suggest a solution for the diffusivity equation. (3 marks) 4. The following figure represents a real DST chart for pressure and temperature measurements. Analyze and interpret the diagram to understand the pressure behavior over time. (5 marks] 5. The duration extends from 85 hours to 120 hours. Create a table to record the pressure at five-hour intervals. [3 marks) 6. Could you specify the hydrostatic pressure, initial and final flow rates, and shut-in pressure? [2 marks) 3000 pela 2000 1900 20 130 100 150 Hours ने

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
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49
DST HW.docx
۱:۳۳ ما
DST HW
1. Derive the diffusivity equation for one-dimensional, linear flow of a slightly compressible
liquid. (5 marks)
2. Provide an illustration of diffusivity equations for various scenarios. (2 marks)
3. Suggest a solution for the diffusivity equation. (3 marks)
4. The following figure represents a real DST chart for pressure and temperature
measurements. Analyze and interpret the diagram to understand the pressure behavior
over time. (5 marks]
5. The duration extends from 85 hours to 120 hours. Create a table to record the pressure
at five-hour intervals. [3 marks)
6. Could you specify the hydrostatic pressure, initial and final flow rates, and shut-in
pressure? [2 marks)
3000
pela
2000
1900
20
130
100
150
Hours
ने
Transcribed Image Text:49 DST HW.docx ۱:۳۳ ما DST HW 1. Derive the diffusivity equation for one-dimensional, linear flow of a slightly compressible liquid. (5 marks) 2. Provide an illustration of diffusivity equations for various scenarios. (2 marks) 3. Suggest a solution for the diffusivity equation. (3 marks) 4. The following figure represents a real DST chart for pressure and temperature measurements. Analyze and interpret the diagram to understand the pressure behavior over time. (5 marks] 5. The duration extends from 85 hours to 120 hours. Create a table to record the pressure at five-hour intervals. [3 marks) 6. Could you specify the hydrostatic pressure, initial and final flow rates, and shut-in pressure? [2 marks) 3000 pela 2000 1900 20 130 100 150 Hours ने
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