15 credits
Level 5
First Term
The course covers aspects of geology, geophysics and prospect evaluation to illustrate how geologists deal with uncertainty and risk during the exploration process. It will look at the place of the geoscientist during the productive life of an oilfield. Another key aspect of this course will be the issue of communication between geoscientists and engineers. By the end of this course students should understand how geologists explore for oil and gas, and the main tools at their disposal; the role of the geophysicist; how to make prospect maps; petroleum volumetrics; subsurface fluid flow; and the creation of static reservoir models.
15 credits
Level 5
First Term
The course will provide an understanding of: data governance issues and how they impact on business workflows; data management organisation models and structures, data roles and responsibilities; legal issues relating to data governance, and a more detailed exploration of data protection law; data policies, strategies, standards and procedures; the relation between data governance and data quality, security, entitlements and obligations; and data management maturity and impact.
15 credits
Level 5
First Term
Spectroscopy, radiative transfer and retrieval methods are rapidly growing fields with extreme importance in atmospheric and planetary science. They are fundamental to study weather, climate, air quality on Earth, the evolution of greenhouse gases and biogeochemical cycles on Earth. They provide information about the physics and evolution of the atmospheres of the solar system planets and exoplanets at a larger scale. This course will provide the fundamental knowledge to a depth that will leave a student with the background to perform quantitative research on atmospheres. It spans across principles through applications, with sufficient background for students without prior experience in spectroscopy or radiative transfer.
15 credits
Level 5
First Term
This course introduces students to the fundamental types of geographical, geological, offshore survey, and geophysical data used within the Oil and Gas and related industries, with special emphasis on those types of data where the spatial position is crucial to the significance of the measurements. Attention will be given to the common sources of data, acquisition and capture, storage, processing, quality control, and analysis, and representation through mapping and visualisation.
30 credits
Level 5
Second Term
The course will give students the skills to interpret
petrophysically complex reservoirs from a variety of sedimentological and
lithological environments. Integration with geology will be emphasised along
with the advanced tools and techniques necessary to characterise these very
different reservoir types. By the end of
this course, students will understand: how the sedimentary environment impacts
reservoir properties; how those properties may be evaluated; the logging tool
suites available to interpret complex reservoirs; key differences between
matrix and fracture based production systems; impact of clay type and
distribution on clastic reservoir quality; and the potential volumes available
from unconventional reservoirs.
15 credits
Level 5
Second Term
The course will provide an understanding of: data governance issues and how they impact on business workflows; data management organisation models and structures, data roles and responsibilities; legal issues relating to data governance, and a more detailed exploration of data protection law; data policies, strategies, standards and procedures; the relation between data governance and data quality, security, entitlements and obligations; and data management maturity and impact.
15 credits
Level 5
Second Term
The course covers aspects of geology, geophysics and prospect evaluation to illustrate how geologists deal with uncertainty and risk during the exploration process. It will look at the place of the geoscientist during the productive life of an oilfield. Another key aspect of this course will be the issue of communication between geoscientists and engineers. By the end of this course students should understand how geologists explore for oil and gas, and the main tools at their disposal; the role of the geophysicist; how to make prospect maps; petroleum volumetrics; subsurface fluid flow; and the creation of static reservoir models.
15 credits
Level 5
Second Term
Data sets derived from remote sensing, meteorites and samples retrieved from the Lunar surface will be integrated to inform understanding of geological processes that play within and upon the surface of terrestrial planets. This course will develop essential geologically based reasoning skills through diverse data sets, building upon and contributing to the students’ wider understanding of Planetary Sciences.
15 credits
Level 5
Second Term
Space weather describes the varying conditions in the space environment between the sun and Earth. Phenomena associated with space weather have the potential to impact systems and technologies in orbit and on Earth. For example, solar energetic particles can penetrate satellite electronics and cause electrical failure. These energetic particles also block radio communications at high latitudes during solar radiation storms. Each phenomenon of space weather impacts a different technology.
In this course, we will review Space Weather on Earth, and we will use the lessons learned to understand the impact of the space environment on planetary exploration.
15 credits
Level 5
Second Term
This course provides practical training on some of the most challenging issues of space exploration. In this course, the student will overview the present and future challenges of space exploration, including in-situ resource utilization (ISRU), sample return missions and planetary protection (PP).
15 credits
Level 5
Second Term
The course will provide an understanding of: the value of data quality, the importance of data quality management and the consequences of poor data quality management. It will cover common data quality issues, and inherent uncertainty in data values, and demonstrate the need for data quality standards, business rules, policies and procedures, and how these are used to lead compliance activities. It will also show the relation between data governance and data quality.
60 credits
Level 5
First Term
This project is an extended, independent, self-directed, piece of practical work integrating and reinforcing the material taught on the rest of the Petroleum Data Management MSc programme, and giving a detailed insight into the demands of, and ways of carrying out, data management in the oil and gas industry. Under guidance, the student will be responsible for the project design and execution.
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