Optimizing & Specifying Geo-Exchange Systems EENG 8224

At the end of this course, students will be able to:

• Contrast the different standard system types when analysing a system in the field.
• Draw a schematic layout of each type of system showing the main components of that system.
• Analyze the theoretical efficiency and power consumption of a vapour compression refrigeration cycle operating at several different temperatures, given several key equipment parameters and refrigerant pressure-enthalpy diagrams.
• Simulate different theoretical operating points and refrigerant systems to aid and expedite system design choices using refrigeration cycle analysis software.
• Outline the basic processes involved in assessing project sites while developing the design of geothermal energy systems.
• Summarize critical decision milestones pertaining to the choice of ground coupling methods.
• Choose appropriate construction methods for installation of the fundamental system types while meeting the administration needs pertaining to the operation of each major type of equipment.
• Prepare a quality control and occupational health and safety task list for each type of construction method.
• Conduct a general assessment of the surface / near-surface materials on a potential site, to include the recording of attributes that are useful in the design and development of that site.
• Analyse the results of a formation thermal conductivity test based on downloading data from the data acquisition system.
• Determine the apparent thermal conductivity of the formation.
• Log test pits and boreholes and present information for their design and development.
• Draw a schematic design of a typical open-loop well system, including the installation process.

Effective as of Fall 2009