Petroleum Engineering by Flexible Open Learning, HNC, Online learning course

Program Overview

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Course overview

The course provides a range of disciplines to help you develop skills to progress your career through employment or further education at degree level. This is a Teesside University award delivered under licence from Edexcel by Teesside University open learning (Engineering).

What does by flexible open learning mean?

Open learning

– open learning is suitable for those who are unable to attend conventional classroom-based courses. So, if you work on an oil rig in the Caribbean or in pipeline construction in a desert, you can study at your own pace at a location suitable to you.

Flexible study

– you work at your own pace. But typically, a Higher National Certificate takes between two and three years. You must complete the course within five years and you must do at least two 15-credit modules a year (30 credits in total).

Learning resources

– we provide the course materials through our e-learning site. You are given user-friendly guides, explanations, self-assessment questions and answers to help your study. If there is practical work involved in a module we loan you a special practical kit to do it at home.

Tutor support

– you are allocated a tutor for each module. The tutor grades your tutor-marked assessments and provides feedback through the online site. Your tutor is also available to contact by phone, email or (by prior arrangement) in person to help you with any problems that you have with the work.

Assessments

– you are assessed by a series of in-course tutor-marked assessments. The number of assessments varies across the modules. You complete the assessment and submit your answers through the online site.

The HNC programme is a nationally-recognised qualification awarded under licence from Edexcel.

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Program Outline

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Petroleum Engineering by Flexible Open Learning, HNC - Detailed Information

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Degree Overview:

This course aims to equip learners with the necessary skills and knowledge to work as technicians/technician engineers in the petroleum engineering, maintenance, and testing sectors. Developed in collaboration with local industry, this HNC program combines theoretical knowledge with practical work, with a strong emphasis on industrial applications. The program provides a comprehensive foundation in petroleum engineering principles and prepares graduates for successful careers in the field.

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Outline:

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Program Content:

• The HNC program covers a broad range of engineering disciplines, focusing on the oil and gas industry.
• Learners gain an in-depth understanding of key aspects of petroleum engineering, including drilling, well completion, testing, operation, and reservoir fluid extraction.

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Program Structure:

• The HNC program comprises 10 modules, including 8 core modules and 2 optional modules.
• Core modules cover essential topics in engineering principles, mathematics, science, project management, mass and energy balance, petroleum production engineering, and two optional modules that delve deeper into specific areas of interest.

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Course Schedule:

• Learners can enroll in the program monthly.
• The program is designed for part-time study and can be completed within two to three years, depending on the learner's pace.
• Learners must complete at least two modules (30 credits) per year, with a maximum of eight modules (120 credits) required for HNC completion.

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Individual Modules:

Here is a detailed description of each module:

• Engineering Design: This module explores the design process, enabling learners to appreciate the critical elements of harmonizing key parameters for optimal design solutions.
Learners develop the ability to produce comprehensive design reports, encompassing client briefs, planning, design specifications, evaluation, and reporting.
• Engineering Maths: This module equips learners with fundamental analytical knowledge and techniques required for successful completion of core modules in higher national engineering programs.
Learners build a strong foundation in algebra, trigonometry, calculus, statistics, and probability, enabling them to analyze, model, and solve complex engineering problems.
• Engineering Science: This module introduces learners to the fundamental laws and applications of physics within an engineering context.
Learners gain the ability to apply this knowledge to solve diverse engineering problems. This module covers international system units, data interpretation, static and dynamic forces, fluid mechanics, thermodynamics, material properties and failure, and AC/DC circuit theories.
• Managing a Professional Engineering Project: This module provides learners with the necessary skills and knowledge to successfully identify the optimal approach to meet specific engineering needs.
This module explores core tools and methodologies available to engineers for project management success, ensuring projects are completed within budget, timeframe, and ecological and ethical considerations.
• Mass and Energy Balance: This module introduces the concepts of mass and energy conservation laws and equips learners with a robust strategy for setting up and solving complex mass and energy balance problems related to chemical processes.
Learners gain proficiency in using steam tables for resolving energy balance issues and understanding the principles of recycling and purging.
• Petroleum Production Engineering: This module delves into the application of physical principles and engineering techniques to evaluate the properties of underground formations, aiding in the discovery of oil and gas reserves.
Learners explore various properties affecting production and gain insights into drilling technologies, well completion and testing, and operation and control methods for efficient reservoir fluid extraction.
• Applications of Pneumatics and Hydraulics: This optional module provides learners with a thorough understanding of fluid power systems used in modern industry.
Learners investigate pneumatic and hydraulic diagrams, analyze characteristics of components and equipment, and evaluate various applications of pneumatics and hydraulics.
• Fluid Mechanics: This optional module focuses on the application of fluid mechanics principles and techniques for predicting fluid behavior in engineering applications.
Learners investigate forces exerted by static fluids on immersed surfaces, viscosity, fluid flow through pipelines and around bluff bodies, and examine the performance of hydraulic machines.
• Fundamentals of Thermodynamics and Heat Engines: This optional module explores the fundamental principles and laws of thermodynamics and heat transfer, demonstrating their application in engineering systems.
Learners gain proficiency in system definition, the fundamental laws of thermodynamics, and the application of non-flow and steady-flow energy equations using ideal gas equations and steam tables.
• Heat Transfer and Combustion: This optional module provides learners with extensive knowledge of heat transfer and combustion principles and associated empirical relationships.
Learners develop the ability to solve practical problems and produce specifications for practical engineering equipment.
• Instrumentation and Control Principles: This optional module introduces learners to the principles of instrumentation and control engineering, enabling them to apply this knowledge to solve various engineering problems related to process measurement and control systems.
Learners explore sensors and transducers, signal transmission, condition and conversion, control systems, process loop tuning, valves and actuators, control valve selection, and sizing.

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Assessment:

• Each module is assessed through tutor-marked assignments (TMAs), containing series of questions designed to evaluate learners' understanding of the module's learning outcomes.
• Some modules may require practical work, for which the program provides additional software or practical kits.
• After completing assessments, learners participate in exit interviews with tutors to authenticate their work and confirm grades.
These interviews are conducted in person, via phone, or Skype.
• TMAs represent an ongoing assessment method, providing learners with continuous feedback throughout their learning journey.
• Completed TMAs are submitted through the online platform, and learners receive grades and feedback through the same platform.

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Teaching:

• The program is delivered through Teesside University's e-learning site, providing a flexible and accessible learning environment.
• Each module includes comprehensive study packs consisting of folders containing various lessons grouped by topics.
• Each lesson includes an introduction, learning aims, study advice, self-assessment questions, and a summary.
• The program utilizes a blended learning approach, combining online resources with practical exercises and assessments.
• Learners have access to a dedicated tutor for each module, who provides guidance, feedback, and support throughout the learning process.
• Tutors are available for support via phone or email and schedule in-person meetings as required.

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Careers:

• Graduates of this program can pursue various career paths within the petroleum engineering and related industries.
• Potential career opportunities include:
• Petroleum Engineer
• Process Engineer
• Production Engineer
• Project Engineer
• Maintenance Engineer
• Field Engineer
• Well Site Supervisor
• Reservoir Engineer
• Graduates are also well-prepared for further academic pursuits, such as melanjutkan to HND or a relevant engineering degree at Teesside University.

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Other:

• The program's open learning format allows learners to study at their own pace and location, making it suitable for individuals with busy schedules or those seeking a flexible learning option.
• The program is designed to equip learners with the essential skills and knowledge required for professional success in the petroleum engineering field.
• Graduates are highly sought after by employers in the industry, due to their strong technical foundation and practical experience gained throughout the program.

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Additional Notes:

• The program is delivered through Teesside University's e-learning platform, which provides a user-friendly and engaging learning experience.
• Learners are provided with comprehensive online resources, including study materials, tutorials, and interactive quizzes.
• The program also offers access to a dedicated student support team, who assist learners with any administrative or academic queries they may have.
This comprehensive extraction aims to provide a detailed and informative overview of the Petroleum Engineering by Flexible Open Learning, HNC program at Teesside University.

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Tuition Fees and Payment Information:

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Course Fee:

£495 per module

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HNC Total Cost:

£3,960 (eight modules)

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HND Total Cost:

£7,920 (sixteen modules)

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Payment Method:

Online Shop (link provided in offer letter)

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Student Loans:

• Home students eligible for student loans (apply via student finance website)
• Loan covers cost of first two modules only (£990)
• Apply for additional loan each year as needed
• University will electronically request increase from Student Loans Company
• Loan does not cover foundation modules
• ELCAS provider number: 1691

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Additional Fees:

• Practical kits for some modules (loaned at no extra charge)
• Software for some modules (free downloads or purchased)

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International Fees:

Not mentioned