Doctor's Degree in Energy Resources Engineering at Stanford University |
Stanford University
|
Stanford University is a Private not-for-profit, 4-year or above Research Universities (very high research activity) with 19,782 students in Stanford, CA.
|
|
This school offers the following degree levels:
Bachelor degree, Masters degree, Certificates/Post-Master's Certificate, Doctor's degree, First-Professional degree |
| Also, students of this school are eligible for federal aid such as Pell Grants and Direct Loans from the US Department of Education. |
View more details on
Stanford University. |
Mission:
From the Stanford University Founding Grant, November 11, 1885:
...the Nature, Object, and Purposes of the Institution Hereby Founded, to Be:
Its nature, that of a university with such seminaries of learning as shall make it of the highest grade, including mechanical institutes, museums, galleries of art, laboratories, and conservatories, together with all things necessary for the study of agriculture in all its branches, and for mechanical training, and the studies and exercises directed to the cultivation and enlargement of the mind:
Its object, to qualify its students for personal success, and direct usefulness in life;
And its purposes, to promote the public welfare by exercising an influence in behalf of humanity and civilization, teaching the blessings of liberty regulated by law, and inculcating love and reverence for the great principles of government as derived from the inalienable rights of man to life, liberty, and the pursuit of happiness. |
Stanford University
Doctor's degree
Energy Resources Engineering
|
|
|
The Energy Resources Engineering curriculum provides a sound background in basic sciences and their application to practical problems to address the complex and changing nature of the field. Course work includes the fundamentals of chemistry, computer science, engineering, geology, geophysics, mathematics, and physics. Applied courses cover most aspects of energy resources engineering and some related fields like geothermal engineering and geostatistics. The curriculum emphasizes the fundamental aspects of fluid flow in the subsurface. These principles apply equally well to optimizing oil recovery from petroleum reservoirs and remediating contaminated groundwater systems. The program also has a strong interest in related energy topics such as renewable energy, global climate change, and CO2 sequestration.
Energy resources engineers are concerned with the design of processes for energy recovery. Included in the design process are characterizing the spatial distribution of hydrocarbon reservoir properties, drilling wells, designing and operating production facilities, selecting and implementing methods for enhancing fluid recovery, examining the environmental aspects of petroleum exploration and production, monitoring reservoirs, and predicting recovery process performance.
Faculty and graduate students conduct research in areas including: enhanced oil recovery by thermal means, gas injection, and the use of chemicals; flow of fluids in pipes; geostatistical reservoir characterization and mathematical modeling; geothermal engineering; natural gas engineering; carbon sequestration optimization; properties of petroleum fluids; reservoir simulation using computer models; and well test analysis.
View more details on
Stanford University.
|
|
|
|
