Wind and Hydro Power

Semester 2

This course highlights the principles of power generation from wind and hydro resources. The theory of resource assessments, wind and hydro turbine performances, and their power generation will be presented. This will include the results of studies conducted locally and globally. Students will be exposed to the economic aspects of power generation, including assessment of energy cost under different scenarios. Students will also be required to investigate the latest developments in wind and hydro power including local wind and hydro plants.

Syllabus:

Wind Power

Overview of global wind power, wind types and classes, and its physical characteristics
Wind resource assessment: Anemometry and site prospecting.
Introduction to basic statistics: Weibull and Rayleigh distributions.
Wind energy and power density calculations.
Components and basic operation of WEC (Wind Energy Conversion) systems and turbine types.
Horizontal and vertical axis turbines.
Conversion of wind power to electrical power.
Factors affecting turbine performance and efficiency.
Wind farms designs and installations
Economic analysis and environmental considerations
Wind hybrid systems (solar, diesel, hydro) and other applications of wind power.
Energy storage: batteries, flywheels, compressed gas.

Hydro Power

Hydrologic (water) cycle, global hydro power, and hydro resource assessment.
Analysis of power losses in pipes Moody diagrams, and the
Operating principles and the characteristics of selected turbines
Criteria for selection of a particular turbine
Concepts of gross head, net head, energy line, hydraulic grade line and available head
Conversion of hydro- power to electrical power: Shaft torque and shaft power.
Energy storage: pumped storage facilities.
Economic analysis and environmental considerations

Evaluation:

The course assessment will be as follows:

One 2-hour final written examination 50%
Two 1-hour in-course test 20%
Six graded tutorials (equal weighting) 10%
One seminar-based group presentation 20%

The grading for the group seminar will be distributed as follows:

Individual contribution (15%)
Team work (5%)

Learning Objectives:

On the successful completion of the course, students should be able to:

state and define the classifications of wind speed
analyze the power distribution of wind speed
describe the characteristics of energy storage systems
explain the basic operation of wind and hydro turbines used in generating electrical power
perform site assessments and planning strategies for installation of wind and hydro power systems
conduct environmental impact assessments
apply the concept of wind hybrid systems to powering rural communities
perform a preliminary economic evaluation of a wind or hydro power system

PHYS2671 and PHYS3661

Books:

Prescribed

Twidell, J. W. and Weir, A. D. (2006), Renewable Energy Resources; Taylor and Francis, 2^ndEdition. ISBN: 0-419-25330-0

Highly Recommended

Alexandrou, A.; (2001), Principles of Fluid Mechanics; Prentice-Hall, Inc. 1^st edition.ISBN: 0-13-801762-X
Sørensen, B., (2004), Renewable Energy; New York Academic Press,3^rd Edition.ISBN: 0126561532.

Internet Sources:

Renewable energy sources: http://www.alstom.com/power/renewables/
Water power and clean energy: http://www1.eere.energy.gov/water/pdfs/48104.pdf

Course Code:

PHYS3681

Credits:

3 Credits

Level:

Level 3

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The University of the West Indies, Mona

Physics

Wind and Hydro Power

Department of Physics

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