Credit(s): 3 (Math & Basic Sciences); Required

Contact hours: 4 (Lecture: 3/week, Discussion: 1/week)

The course covers the following topics: theory and application of the differential calculus of polynomial, exponential, logarithmic and trigonometric functions. Graphical, numerical and analytical solutions to applied problems involving derivatives. Introduction to the integral.

Prerequisites: None

Credit(s): 3 (Math & Basic Sciences); Required.

Contact hours: 4 (Lecture: 3/week, Discussion: 1/week)

The course provides basic knowledge of chemistry with the content includes atomic structure, electromagnetic radiation, atomic spectroscopy, atomic structure according to quantum mechanics, atomic orbitals and energy levels; theories explaining about chemical binding (theory valence bond, hybridization theory); the molecular structures and shapes of the propulsion theory between electron pairs VSEPR and the molecular orbital theory MO; the state of substances.

Prerequisites: None

2. Credit hour(s): 1 (Math & Basic Sciences); Required.

The General Chemistry Lab 1 in addition to helping students to review the knowledge learned in the theoretical module also helps students to classify tools, chemicals, equipment, skills and basic operations. The extent of the substances impact on the experimenters, the possible risks of incidents, from which to properly recognize and use personal protective equipment when working in the laboratory.

Co-requisite: CHE11301

Credit(s): 1 (Math & Basic Sciences)

Contact hours: 2/week

Through practical work students should be able to carry out experimental and investigative work in which they plan procedures, use precise and systematic ways of making measurements and observations, analyze and evaluate evidence and relate this to scientific knowledge and understanding. The syllabus is organized around the topics of General Physics 1 with 7 experiments. Each experiment has one laboratoty manual with the typical structure: objects of the experiment, principles, carrying out the experiment and report form.

Prerequisites: PHY21201

Credit(s): 2 (Engineering topic); Required

Contact hours:3 (Lecture: 2/week, Discussion: 1/week)

An introduction to computer-aided drafting. Emphasis is placed on drawing setup; creating and modifying geometry; adding text and dimensions, coordinate systems, and plot/print to scale. Technical drawing skills including freehand sketching, orthographic projection, dimensioning, sectional views, and other viewing conventions will be developed. Basic CAD commands, tools, multi-view drawing and dimensioning techniques.

Prerequisites: None

Credit(s): 2 (Engineering topic); Elective

Contact hours: 3 (Lecture: 2/weeks, Discussion: 1)

Origin and accumulation of hydrocarbon fluids. Exploration for oil and gas. Basic concepts of hydrocarbon traps. Introduction to various Petroleum Engineering disciplines. Formulation of physical concepts into mathematical equations. Application of engineering methods to problem solving in Oil and Gas Industry.

Prerequisites: None

Credit(s): 3 (Math & Basic Science); Required

Contact hours: 3 (Lecture: 2/week, Discussion: 1/week)

The course covers the following topics: definite and indefinite integrals of functions of a single variable. Improper integrals. Infinite series. Introduction to differential equations. Emphasis on applications of calculus and problem-solving using technology in addition to symbolic methods.

Prerequisites: Calculus 1

Credit(s): 3 (Math & Basic Science); Required

Contact hours: 5 (Lecture: 3/week, Lab: 2/week)

The course is designed to meet the needs of student majoring in Petroleum Geology – Geophysics, Drilling and Production Technology, and Refinery and Petrochemical. It is an introduction to electricity and magnetism, light, geometrical and wave optics. Many concepts from General Physics 1 will be used in this course such as: position, velocity, acceleration, force, Newton’s laws of motion, work and energy. The course uses algebra, geometry and trigonometry, vectors and vector arithmetic, and some calculus. The course has lecture, homework and laboratory portions

Prerequisites: MAT11301, PHY21201

Credit(s): 1 (Math & Basic Sciences)

Contact hours: 2/week

Through practical work students should be able to carry out experimental and investigative work in which they plan procedures, use precise and systematic ways of making measurements and observations, analyze and evaluate evidence and relate this to scientific knowledge and understanding. The syllabus is organized around the topics of General Physics 2 with 7 experiments. Each experiment has one laboratoty manual with the typical structure: objects of the experiment, principles, carrying out the experiment and report form.

Prerequisites: PHY21202

Credit(s): 3 (Engineering topic); Required

Contact hours: 5 (Lecture: 3/week, Lab: 2/week)

Computer programming for engineers, syntax, use of primitive types, control structures, vectors, strings, structs, classes, functions, file I/O, exceptions and other programming constructs, use of class libraries, practice in solving problems with computers, includes the execution of programs in C++ written by students

Prerequisites: None

Credit(s): 1 (Engineering topic); Required

Contact hours: 2weeks

The purpose of this field training is to acquaint the student with the various petroleum industry disciplines structured for characterization and exploitation of oil and gas fields. Such disciplines may include core analysis and interpretation of well tests and well logs, geology and subsurface mapping, design of drilling and production facilities, the use of reservoir simulators for the design and prediction of reservoir performance, refinery process, petrochemical products, gas processing engineering.

Prerequisites: None

Credit(s): 2 (Math & Basic Science); Required

Contact hours: 3 (Lecture: 2/week, Discussion: 1/week)

The course covers the following topics: vector geometry, algebra and calculus. Partial and directional derivatives. Double and triple integrals. Vector fields. Line and surface integrals. Theorems of Green, Stokes and Gauss.

Prerequisites: Calculus 1, 2

Credit(s): 3 (Basic science); Required

Contact hours:5 (Lecture: 3/week, Lab: 2/week)

General Chemistry 2 present the main point that the student will achieve the knowledge to solve problems in fundamental chemistry such as: Energies and Rates of Chemical Reactions, aqua solution, electro-chemistry, chemical surface.

Prerequisites: General Chemistry 1

Credit(s): 3 (Engineering topic); Required

Contact hours: 4 (Lecture: 3/week, Discussion: 1/week)

The course introduces the fundamental laws of thermodynamics (the first and second laws) and their application to engineering power cycles such as Carnot cycle, Rankine cycle, refrigeration cycle, Otto cycle, and Diesel cycle

Prerequisites: PHY 31202, CHE 12303, MAT 13207 (Parallel)

Credit(s): 2 (Engineering Topics), Required course

Contact hours:3 ( Lecture: 2/week ; Discussion: 2/week)

Basic components and electrical circuit models. Response analysis due to DC, AC circuits (Kirchhoff’s Laws, RLC circuits, Power, Polyphase circuits). Solution of multi-node circuits using the Laplace transform and complex number method. Concepts of electrical machinesb.

Prerequisites: MAT11301, PHY21301

Credit(s): 3 (Basic Sciences); Required course

Contact hours: 5 ( Lecture: 3/week ; Lab: 2/week)

Physical Geology provides a good overview of the discipline and its interlinked parts. It provides an introduction into the broad range of topics within the realm of geology. It describes many of the general principles with emphasis on both surface and internal processes of the earth. The course also provides the hands on experience dealing with many of the same topics as the lecture material. Students will work with real samples of minerals and rocks.

The topics covered in this course range over the broad vista of geology. It discusses individual minerals, the rocks made of these minerals, the conditions under which these rocks originate and are altered as part of mountain building processes, and the destruction of rocks during mechanical, chemical, and biological attack.

Prerequisites: None

Credit(s): 3 (Basic Sciences); Requied course

Contact hours: 5 ( Lecture: 3/week ; Lab: 2/week/group)

Minerals make-up rocks, and therefore, in order to understand rocks, one must have a sound knowledge of minerals. This course covers the basic make-up of minerals, their crystallographic, physical, chemical, and structural properties. In addition, laboratory time is spent on hand specimen identification of minerals. This course needs to be taken early in the sequence, prior to Petrography, and after chemistry is completed.

The topics deal with the various minerals that make-up rocks which comprise the Earth as well as extraterrestrial bodies. The course begins with a general discussion of the physical properties of minerals, e.g., hardness, luster, color, etc. This is followed by discussion of crystal chemistry, various lattice structures, and their expression in the minerals external symmetry. The main part of the course is a study of the different groups of minerals, most mineral groups are based on their silicate structures and chemistry.

Prerequisites: Physical Geology (GEO12302)

Credit(s): 2 (Engineering Topics); Elective course

Contact hours: 3 (Lecture: 2/week; Discussion: 1/week)

this course will provide for students 2 major content: Engineering geology & Hydrology geology. The first content will present Material properties of rocks, rock masses and soils. Jointing of rocks. Weakness zones and gouge materials. Stresses in rock masses. Engineering geological investigations. Design of underground structures. Classification of rock masses. Stability problems and support measures for tunnels, underground openings and slopes. Formation of different types of deposits by erosion, weathering and transcretion/ regression. Classification. Physical and chemical properties. Characteristic features including weathering soil, moraine, friction soil, cohesive soil and podzol. Regional distribution. Application of rocks and soils. Hydrology geology sections will describe about Theory and geology of groundwater occurrence and flow, types of aquifers, theory of aquifer tests and determination of aquifer parameters, water chemistry and quality criterions, relation between geology and water chemistry, groundwater contamination (inorganic and organic), spreading mechanisms and countermeasures, monitoring programs, design of wells and protection zones, management and regulations.

Prerequisites: Physical Geology (GEO12302)

Credit(s): 3 (Math & Basic Science); Required

Contact hours: 4 (Lecture: 3/week, Discussion: 1/week)

The course covers the following topics: First, second, and higher order equations. Systems of differential equations. Analytic methods of solution. Applications to science and engineering.

Prerequisites: MAT11301

Credit(s): 3 (Math & Basic Sciences), Required course

Contact hours: 4 (Lecture: 3/week ; Discussion: 1/ week )

This course provides students with knowledge about Probability definition, rules for probability calculation, random quantities, probability distributions, conditional probability distribution, statistics, hypothesis testing, variance analysis, regression analysis.

Prerequisites: None

Credit(s): 2 (Math & Basic Sciences), Required course

Contact hours: 3 (Lecture: 2/week ; Discussion: 1/ week )

Numerical Methods for Differential Equations including 3 chapters provides fundamental concepts in topics: Concepts related to differential equations, Mathematical models in the form of differential equations, Method of solving differential equations of levels 1, 2 and differential equations system, Numerical method of solving problems with initial conditions and boundary problems.

Prerequisites: MAT12305

Credit(s): 4 (Basic sciences); Required course

Contact hours: 6 ( Lecture: 4/week ; Lab: 2/week/group)

Understanding rocks, the conditions under which they form is vital to understanding the Earth and the search for Earth resources. This course deals with the origin and recognition of two major rock types: igneous and metamorphic. This course must follow mineralogy, rocks are composed of minerals and, therefore, knowledge about minerals must precede the study of rocks. This course will revolve around the description, classification, and analyses of rocks at the macro- and microscopic scales. In addition to studying the origin of the main rock groups, hand specimen analyses will be augmented by thin section analyses, i.e., the use of the petrographic microscope.

Prerequisites: Physical Geology (GEO 12302); Mineralogy (GEO12303)

Credit(s): 4 (Basic Sciences); Required course

Contact hours: 6(Lecture: 4/week ; Lab: 2/week/ group)

The course provides a general coverage of the structures produced by brittle and ductile rock deformation at scales from the hand-specimen to plate boundaries, and an insight into the relationships between the deformational structures and plate tectonic settings..

Prerequisites: GEO 12302, INC31301

2 Credit: 3 (Basic Sciences); Required course

Contact hours: 4 ( Lecture: 3/week ; Discussion: 2/week)

Introduce the scientific basis of exploration geophysical methods, including the physical, mathematical and geological basis of each method, on the basis of which the methods of survey, Being, transmitters, receivers with specific transceiver principles, application of each method

Prerequisites: PHY21201, PHY21202, MAT11301, MAT11302, MAT11303

Credit(s): 2 (Enginering topics); Required course

Field Schedule: 5-8 days

This course provides the petroleum geologist with an introduction into geologic relationships in the real world of nature. The course involves interpreting topographic and geologic maps, solving geologic problems using trigonometry and descriptive geometry, field mapping, and report writing. A week-long field trip to a moderately complex geologic area is a major part of this course. Field Methods provides the young petroleum geologist with their first in depth introduction to the occurrence of rocks in nature. The course teaches how to obtain basic information on the relationships between different rock bodies and each other as well as each deposits relative place in the Earth.

Prerequisites: Physical Geology (GEO12302); Mineralogy + (Lab) (GEO12303); Structural Geology ( GEO12406); Igneous and Metamorphic Petrology + (Lab) (GEO12303

Credit(s): 3 (Engineering Topics); Required Course: R

Contact hours: 4 (Lecture: 3/week; Lab: 1/week)

The application of geophysical field methods for delineating near-surface features and/or structures as applied to exploration, environmental, and engineering problems. Field design, ground positioning, instrumentation, practical field data acquisition with gravimeter, magnetometer, ground-penetrating radar, electrical resistivity, electromagnetic, and seismic equipment.

Prerequisites: MAT 12305, MAT12206, GEO12333

Credit(s): 04 (Enginering Topics); Required course

Contact hours: 6 ( Lecture: 4/week ; Discussion: 2/week)

Introduction to the physical theory of well-log methods (resistivity, spontaneous potential, sonic, temperature, radioactive, etc.), the theory of tool operation and well-log data interpretation for formation evaluation of hydrocarbon-bearing reservoirs, well log correlation, well bore condition evaluation and production analysis.

Prerequisites: GEO12333, GEO13311, GEO13337

Credit(s): 2 (Engineering topics); Require course

Contact hours: 3 (Lecture: 2/week, Discussion: 1/week)

Includes general theory about the field. Potential fields in geophysics include gravity field, static field in the medium – magnetic field, stationary electric field and stationary magnetic field. The wave fields include electromagnetic wave field, elastic wave field.

Prerequisites: General Geophysics (GEO12333)

Credit(s): 3 (Basic Sciences); Required course

Contact hours: 4 ( Lecture: 3/week ; Discussion: 1/week)

An introduction to the processes responsible for production, transport, and deposition of sedimentary particles. Overview of sedimentary rocks, textures, structures and classifications. Emphasis on principles and applications.

Prerequisites: Physical Geology (GEO 12302), Mineralogy (GEO12303).

Credit(s): 2 (Basic science); Require course

Contact hours:3 (Lecture: 2/week, Discussion: 1/week)

The course covers the following topics:Systems of linear equations. Eigen values and eigen vectors. Finite dimensional vector spaces. Linear transformations with applications. Numerical solutions of systems of linear equations

Prerequisites: None

Credit(s): 3 (Basic Sciences); Required course

Contact hours: 4 ( Lecture: 3/week ; Discussion: 2/week)

This course will provide some concept involves the analysis of Conditions controlling primary production and accumulation of organic matter. Source rock formation and analysis. Conversion of organic material to petroleum. Primary and secondary migration of petroleum. Porosity and permeability in reservoir rocks. The role of depositional environment as a controlling factor for reservoir quality. Classification and formation of petroleum traps. Basin types and their petroleum potential. Volumme estimates and probability of discovery of the prospects are calculated using industrial standard programs.

Prerequisites: GEO12302, GEO12406, GEO13334

Credit(s): 2 (Math & Basic Sciences), Required course

Contact hours:3 (Lecture: 2/week, Discussion: 1/week)

The course covers the following topics:Fourier series. Sturm-Liouville problems. The heat, Laplace, and wave equations. Separation of variables. Eigen function expansion. Fourier and Laplace transformations. Green's functions. Canonical forms of second-order linear equations. Method of characteristics. Asymptotic expansion techniques.

Prerequisites: MAT11301

Credit(s): 2 (Enineering Topics); Required course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

Determination of reserves; material balance methods; aquifer models; fractional flow and frontal advance; displacement, pattern, and vertical sweep efficiencies in waterfloods; enhanced oil recovery processes; design of optimal recovery processes; introduction and performance analysis of unconventional reservoirs.

Prerequisites: Petroleum Geology (GEO13311)

Credit(s): 4 (Engineering Topics); Required Course: R

Contact hours:6 (Lecture: 4/week; Discussion: 2/week)

This course is designed to give students theoretical background and experience in seismic data processing (reflection, refraction, VSP etc.) which is used in exploration geophysics/seismology and engineering. Throughout this course, students will learn the fundamental of seismic data processing and master the problem-solving ability. The students will also learn the interaction between seismic data processing and data interpretation. In addition, the students will know how to use software in seismic data processing.

Prerequisites: MAT11301, MAT11302, MAT12203, MAT12305, MAT12206, MAT 13207, MAT13208, GEO12333, ELE33204, GEO13439

Credit(s): 4 (Engineering Topics);     Required Course: R

Contact hours: 6 (Lecture: 4/week; Discussion: 2/week)

This course will examine concepts and methods in exploration seismology applied to hydrocarbon exploration and development. Primary focus will be on seismic reflection methods and related technologies (borehole seismic, elastic logs and microseismic). Physical principles and practical aspects of seismic data acquisition, digital signal processing, inversion for elastic rock properties and data interpretation techniques will be covered.

Prerequisites: MAT11301, MAT11302, MAT12203, MAT12305, MAT12206, MAT 13207, MAT13208, GEO12333, ELE33204

Credit(s): 2 (Basic Sciences); Elective course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

This course aims to develop a fundamental knowledge of the basic geological and petrophysical concepts and apply this knowledge to understand reservoir geology.

Prerequisites: GEO13311, GEO13438

Credit(s): 3 (Engineering topic); Required

Contact hours: 4 (Lecture: 3/week, Discussion: 1/week)

The course consists of 16 chapters to provide students with basic knowledge of microeconomics, macroeconomics, and petroleum economics. Microeconomic issues include the basic laws and concepts of economics and the economy; market mechanism of action, supply and demand rule and market balance; consumer and producer decision-making models; models of market structures and the actions of the parties involved in such market structures. In the macroeconomics section, the module will discuss National Income Accounting; total supply and demand model; Macroeconomic stability: inflation and unemployment; aggregate supply and fiscal policy, financial systems, monetary, banking, and monetary policies of the government. The Petroleum Economics section will give an overview of the world oil and gas industry, the world oil and gas market; update information on laws related to the oil and gas industry; Basic oil and gas contracts; and Vietnam's oil and gas industry.

Prerequisites: None

Credit(s): 2 (Others); Required course

Contact hours: 3 ( Lecture: 2/week; Discussion: 1/week)

Description of hazards in the workplace and hazards of flammable and combustible liquids; description of methods for preventing fire and explosion; calculation of noise levels and noise exposure; identification of major characteristics of US standards for process safety management and OHSAS 18001; distinguishment of accident causes, losses and accident causation models; description of hazard, cause, control and consequence measurements; recognition of necessary requirements and methods for risk assessment, environmental impact assessment (EIA) and environmental monitoring and simple application of risk assessment and EIA to hypothesis activities/projects; explanation of oil weathering processes and discussion of oil spill response approaches.

Prerequisites: None

Credit(s): 1 (Engineering Topics); Required Course

Contact hours: 1 (Discussion: 1/ week)

The course will be an opportunity for students to participate in understanding the companies or manufacturing units operating in the field of Geology – Geophysics. Therefore, students can choose specific topics in the process of implementing the project related to the learned courses.

Prerequisites: GEO13337, GEO13337, GEO13424, GEO13241, PET13244

Credit(s): 1 (Engineering Topics); Required Course

Contact hours: 4 weeks

this course will provide for students 4 major content:

- Overview about the organizational structure and functions of the specialized department at at internships office/ company

- Learn scientific research topics and projects as well as oil and gas exploration and production activities at internships office/ company.

- Directly participate in projects, scientific research topics that are suitable for the students themselves, under the supervision of staff at the internships office/ company.

- Complete a report on the results of the summer internship; The report must fully reflect the activities and results obtained after the internship.

Prerequisites: GEO13311, GEO13337, GEO13337, GEO13424, GEO13241, PET13244.

Credit(s): 2 (Engineering topics); Required course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

The purpose of this course is to provide students with information and important skills to understand the petroleum exploration method. The course will give students insight into theory and applications of field discovery, reservoir modeling, field production, and decision-making. Topic will include the basic notions of exploration and production in oil and gas fields, the main method used in oil and gas companies for exploration: Magnetic, Gravity, Seismic, Drilling, Well Logging, Geochemistry, Formation Testing, and Exploration Risk. Students are expected to be able to analyze a case history, explain which methods should be used and what decisions could be made based on the available data. Students are also expected to be able to complete a short project focusing on acquisition, processing and modeling methodologies for a synthetic oil reservoir.

Prerequisites: GEO13311, GEO13438, GEO13424, GEO13236.

Credit(s): 4 (Engineering topic); Required

Contact hours: 6 (Lecture: 4/week; Lab: 2/week)

Systematic theoretical and laboratory study of physical properties of petroleum reservoir rocks; lithology, porosity, elastic properties, strength, acoustic properties, electrical properties, relative and effective permeability, fluid saturations, capillary characteristics. Conduct experiements related to measure reservoir rock properties (porosity and permeability) and report results in a formal technical report.

Prerequisites: MAT12305, PHY21202

Credit(s): 4 (Engineering Topics); Required Course: R

Contact hours: 6 (Lecture: 4/week; Discussion: 2/week)

This course is designed to give students how electric, electromagnetic, gravitational, magnetic, and seismic data can be used to describe the physical characteristics of the subsurface; how these geophysical methods are applied in mineral exploration, oil and gas exploration, engineering and environmental applications; define the scope and limitations of the geophysical interpretation methods.

Prerequisites: GEO13424, GEO12333, GEO12302

Credit(s): 2 (Basic Sciences); Elective course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

Geographic Information System (GIS) refers to the analysis and management of geographic information. This course introduces methods of managing and processing geographic information. Emphasis on the nature of geographic information, models and data structures for geographic information, geographic data entry, data manipulation and data storage, analytical techniques and spatial modeling, error analysis. The course is made of two components: lecture and practice room. In the lectures, the conceptual elements of the above topics will be discussed. The exercises are designed so that students will have experience in data entry, data management, data analysis and presentation of results in a geographic information system.

This is a course on conceptual theory and basic GIS practice. Understanding these concepts and theories will help you perform spatial analysis in a rational and efficient GIS system.

Prerequisites: ELE31201, INC31301

Credit(s): 2 (Enginering Topics); Elective course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

Petroleum Geochemistry provides readers the principle concepts and applications of petroleum geochemistry used in finding, evaluating, and producing petroleum deposits. Specific topical include the origin of petroleum, deposition of source rock, hydrocarbon generation, and oil and gas migrations that lead to petroleum accumulations. Also included are descriptions on how these concepts are applied to source rock evaluation, oil-to-oil, and oil-to-source rock correlations, and ways of interpreting natural gas data in exploration work. A thorough description on the way petroleum geochemistry can assist in development and production work, including reservoir continuity, surface and unconventional resource is presented. Finally, Using the depth age, and lithologic description of a stratigraphic sequence, cross section, or an entire basin in conjunction with information about the thermal history of the basin setting simulate its geologic history and predict petroleum generation, expulsion, migration, and accumulation.

Prerequisites: Petroleum Geology (GEO13311), Well-logging (GEO13438

Credit(s): 2 (Enginering Topics); Elective course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

To provide of basic geological and geophysical knowledge on geology of oil and gas fields. The main contents of this module are: Concept and classification of oil and gas fields; Pressure and temperature of oil and gas fields; Oil and gas mines in sedimentary rocks; Oil and gas field in carbonate; Oil and gas exploration in magmatic rocks, metamorphosed fractures and burrows; Calculate petroleum reserves and introduce oil and gas deposits in shale.

Prerequisites: Petroleum Geology (GEO13311), Welllogging (GEO13438)

Credit(s): 2 (Basic Sciences); Elective course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

This course introduces whole‐Earth materials & processes with a focus on the formation of & human interaction with surficial environments. We examine phenomena such as volcanoes, earthquakes, wasting, flooding and desertification. Scientific discussion of global environmental issues such as climate change, geologic hazards, natural resources, pollutions and sustainability.

Prerequisites: Physical Geology (GEO12302)

Credit(s): 2 (Enginering Topics); Elective course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

The course deals with theories that explain sedimentary basin evolution and with methods to analyze such basins in order to describe processes that occurred in them. The application of basin analysis to petroleum exploration will be introduced.

Prerequisites: Physical Geology (GEO12302)

Credit(s): 2 (Enginering Topics); Elective course

Contact hours: 3 ( Lecture: 2/week ; Discussion: 1/week)

This course aims to deliver key skills and understanding in production geology, in the hydrocarbon industry, an appreciation of the role of the geologist during the development and production stages of a hydrocarbon field, knowledge of the types of geological heterogeneity that might impact hydrocarbon production, the approaches employed in building qualitative and quantitative geological models of the subsurface, and the difficulties associated with doing this reliably.

Prerequisites: GEO12302, GEO12333

Credit(s): 3 (Engineering Topics ); Required course

Contact hours: 4 ( Lecture: 3/week; Discussion: 1/week)

Introduce the most basic information on the issues of stratigraphy, magma, tectonics and geological resources of the territory of Vietnam as well as their significance for many fields of science and socio-economic of the country.

Prerequisites: GEO12333, GEO12406, GEO12405, GEO13334

Credit(s): 1 (Engineering Topics); Required Course

Contact hours: 1 (Discussion: 1/ week)

The course will be an opportunity for students to participate in understanding the companies or manufacturing units operating in the field of Geology – Geophysics. Therefore, students can choose specific topics in the process of implementing the project related to the learned courses.

Prerequisites: GEO13337, GEO13337, GEO13424, GEO13241, PET13244, GEO14240, GEO14428, GEO13236

Credit(s): 2 (Engineering Topics);Required Course

Contact hours: 6 weeks

An internship in a real-world work setting gives students the opportunity to apply classroom theory and skills in an approved and supervised practical experience for academic credit. An ideal internship is one that provides pre-professional and project-based experiences that allow students the opportunity to make meaningful contributions to an organization. The internship also permits students to gain experience with the job search process and provides a foundation for future career development.

Through graduate internship students re-systematizes all knowledge that they have learned and helps students to have the knowledge and data necessary for graduation projects in petroleum geology or petroleum geophysics. The content of the internship will go into research and solve a professional problem that students choose to make a graduation project after the end of the internship (such as research, analysis of container features; research geochemical characteristics of parent rocks; research and interpretation of sedimentary environment; interpretation of seismic data; calculation of reserves ...)

Prerequisites: All courses follow the program for bachelor of science in petroleum geology and petroleum geophysics...

Credit(s): 8 (Engineering Topics);Required Course

Contact hours: 15 weeks

Preparatory studies of the literature and data collection for the graduation project in a particular area of concentration and under the supervision of one of the faculty members. The course covers directed readings in the literature of civil engineering, introduction to research methods, seminar discussions dealing with special engineering topics of current interest. Planning, design, construction and management of an engineering project. Writing an engineering report.

Prerequisites: All courses follow the program for bachelor of science in petroleum geology and petroleum geophysics.

This is the first course of the English language training program at PetroVietnam University. It is intended for students whose current level of English proficiency is A1 (2). It primarily aims at preparing students with necessary skills and competence relevant to IELTS attributes..

Credit(s): 3 (Others); Required

Contact hours: 6 (Lecture: 4/week, Discussion: 2/week)

This is the first course of the English language training program at PetroVietnam University. It is intended for students whose current level of English proficiency is A2 (1). It primarily aims at preparing students with necessary skills and competence relevant to IELTS attributes. This course adopts the learner-centered approach and learning-by-doing theories. Assessment is continuous, which allows for a comprehensive view of the extent to which students have met the course objectives and outcomes.

Prerequisites: None

Credit(s): 3 (Others); Required

Contact hours: 6 (Lecture: 4/week, Discussion: 2/week)

This is the second course of the English language training program at PetroVietnam University. It is intended for students whose current level of English proficiency is A2 (2). It primarily aims at preparing students with necessary oral skills and competence relevant to IELTS attributes. This course adopts the learner-centered approach and learning-by-doing theories. Assessment is continuous, which allows for a comprehensive view of the extent to which students have met the course objectives and outcomes.

Prerequisites: ENG41301

Credit(s): 3 (Others); Required

Contact hours: 6 (Lecture: 4/week, Discussion: 2/week)

This is the third course of the English language training program at PetroVietnam University. It is intended for students whose current level of English proficiency is B1.1. It primarily aims at preparing students with necessary oral skills and competence relevant to IELTS attributes. This course adopts the learner-centered approach and learning-by-doing theories. Assessment is continuous, which allows for a comprehensive view of the extent to which students have met the course objectives and outcomes.

Prerequisites: ENG42302

Credit(s): 3 (Others); Required

Contact hours: 6 (Lecture: 4/week, Discussion: 2/week)

This is the second course of the English language training program at PetroVietnam University. It is intended for students whose current level of English proficiency is B1 (2). It primarily aims at preparing students with necessary oral skills and competence relevant to IELTS attributes. This course adopts the learner-centered approach and learning-by-doing theories. Assessment is continuous, which allows for a comprehensive view of the extent to which students have met the course objectives and outcomes.

Prerequisites: ENG42303

Credit(s): 2 (Others); Required

Contact hours: 3 (Lecture: 2/week, Discussion: 1/week)

The content of the course covers the basic issues of Ho Chi Minh's Ideology on the national issue and the national liberation revolution; the transition to socialism in Vietnam; Communist Party of Vietnam; great national and international solidarity; democracy and building a State of the people, by the people, for the people; culture, ethics and building new people.

Prerequisites: None

Credit(s): 3 (Others); Required

Contact hours: 5 (Lecture: 3/week, Discussion: 2/week)

The subject consists of three main contents: studying the nature and the most general laws of movement and development of the world. From there, it will help build scientific worldview and dialectical methodology for cognitive and practical activities of learners; study the economic laws of society, especially the basic economic laws of the Capitalist mode of production; provide learners with regular problems in the process of socialist revolution.

Prerequisites: None

Credit(s): 2 (General Education and Others); Required

Contact hours: 3 (Lecture: 2/week, Discussion: 1/week)

This subject aims to raise awareness and understanding of the Communist Party of Vietnam - which has led the Vietnamese revolution to victories and achievements of great historical significance in the development of the nation's history. Through studying and researching the Party's history to educate the Party and nation's ideals and traditions of revolutionary struggle, strengthen and cultivate faith in the Party's leadership, and be proud of the Party and the young generation. join the Party, participate in building a stronger and stronger Party, continue to carry out the Party's mission of leading to firmly defend the Fatherland and successfully build socialism in Vietnam.

Prerequisites: None

Credit(s): 2 (General Education and Others); Required

Contact hours: 3 (Lecture: 2/week, Discussion: 1/week)

The course content includes: objects, research methods and functions of Marxist-Leninist political economy; core content of Marxism-Leninism on goods, markets and the role of actors in the market economy; Surplus value in the market economy; Competition and monopoly in the market economy; the main issues of the socialist-oriented market economy and economic interest relations in Vietnam; Vietnam's industrialization, modernization and international economic integration.

Prerequisites: None

Credit(s): 2 (General Education and Others); Required

Contact hours: 3 (Lecture: 2/week, Discussion: 1/week)

The course includes theoretical knowledge on scientific socialism and the path to socialism in Vietnam; provide learners with: objects, purposes, requirements, learning methods, subject research; the process of formation and development of scientific socialism; historical mission of the working class; social, class, ethnic and religious issues during the transition to socialism; After completing the course, learners have the ability to have practical understanding and the ability to apply knowledge about socialism to consider and evaluate the country's socio-political issues related to socialism. society and the road to socialism in our country. Learners explain and have the right attitude towards the path to socialism in Vietnam.

Prerequisites: None

Credit(s): 1 (Others); Required

Contact hours: 2/week

The course content consists of two parts: theory and practice In theory: Equip students with basic knowledge of volleyball, how to organize a volleyball tournament to develop the ability to practice self-improvement. About practice: Equip the basic techniques in Volleyball.

Prerequisites: None

Credit(s): 1 (Others); Required

Contact hours: 2/week

The course content consists of two parts: theory and practice In theory: Equip students with basic knowledge of football, how to organize a football tournament to develop the ability to practice self-improvement. About practice: Equip the basic techniques in football.

Prerequisites: None

Credit(s): 1 (Others); Required

Contact hours: 2/week

The course content consists of two parts: theory and practice In theory: Equip students with basic knowledge of athletics, how to organize a movement athletics tournament to develop the ability to practice self-improvement. About practice: Equipping basic techniques in athletics.

Credit(s): 0 (Others); Required

The course content consists of two parts: theory and practice In theory: Equip students with basic knowledge of athletics, how to organize a movement athletics tournament to develop the ability to practice self-improvement. About practice: Equipping basic techniques in athletics.

Credit(s): 1 (Others); Required