PETE440 WELL TEST ANALYSIS
Course Code: | 5660440 |
METU Credit (Theoretical-Laboratory hours/week): | 3 (3.00 - 0.00) |
ECTS Credit: | 5.0 |
Department: | Petroleum and Natural Gas Engineering |
Language of Instruction: | English |
Level of Study: | Undergraduate |
Course Coordinator: | Prof.Dr. SERHAT AKIN |
Offered Semester: | Fall Semesters. |
Course Objectives
The main objective of the course is to acquaint the students with background knowledge in designing and analyzing the well tests, deriving the fundamental equations describing the transient fluid flow in porous media, traditional and modern analysis methods. The other objectives are to develop students' ability to apply integrated knowledge of math and basic sciences to the solution of problems related to fluid flow and reservoir performance predictions and provide students with information needed on well test analysis methods to improve their quantitative capabilities in solving reservoir engineering problems.
Course Content
Analytical solution to diffusivity equation and basis for pressure transient test analysis. Skin and wellbore storage concepts. Pressure buildup and flow tests. Estimating average drainage area pressure. Type curves as diagnostic tools and as an analysis technique. Analysis of well tests in hydraulically fractured wells. Well test behavior in naturally fractured reservoirs. Multiple well testing, interference and pulse tests. Well test design.
Course Learning Outcomes
Having knowledge of Petroleum Engineering up to the mark of professing any of the three main branches of the Petroleum Engineering which are Reservoir Engineering, Production Engineering and Drilling Engineering.
Reaching to a critical reasoning level at which s/he can apply, analyze and evaluate the basic engineering and petroleum engineering knowledge that s/he has.
Having the sufficient knowledge for recognizing and portraying the possible problems that s/he may face during professing and having skills of improving strategies to handle with these problems.
Possessing of reaching to new information, interpretation of that information and self- perpetuation ability that is required by their ever-growing, changing job and by disciplinary and interdisciplinary studies in which they can be included.
Self-perpetuation by continuous learning habit upon their strong basic engineering knowledge that they gained during their education.
Being at the professional perfection for self-working as well having an ability of working with a team in harmonization.
Having necessary qualifications for taking responsibility individually or as a member of a team, guiding and collimating when a task is assigned or when needed.
Consciousness of necessity of sharing the acquired craft knowledge and experience with others and being up to use communication methods and instruments for actively sharing that knowledge and experience.
Regarding not only the professional marks and earnings but also the society and environment uring solving of professional problems.
Paying attention to ethical values and codes of conduct both in professional and social life.
Evaluating the encountered problems not only from engineering perspective but also from social, environment and ethical perspectives and searching for and applying realistic solutions to them by these criteria into account.
Program Outcomes Matrix
Contribution | |||||
# | Program Outcomes | No | Yes | ||
1 | An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics | ✔ | |||
2 | An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors | ✔ | |||
3 | An ability to communicate effectively with a range of audiences | ✔ | |||
4 | An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgements, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts | ✔ | |||
5 | An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives | ✔ | |||
6 | An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions | ✔ | |||
7 | An ability to acquire and apply new knowledge as needed, using appropriate learning strategies | ✔ |