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The Sustainable Energy Systems for Education (SESE) initiative aims to create, test, and implement innovative sustainable energy technologies for engineering students at the KGCOE. Launching in fall 2013, SESE projects focus on interchangeable solutions that embody the principles of sustainability. Emphasizing open-source and open-architecture practices, the projects will empower future senior design teams and undergraduates to develop hands-on experience in sustainable energy systems. Key metrics include energy output, conversion efficiency, storage capacity, and transmission efficiency.
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The mission of the Sustainable Energy Systems for Education (SESE) family of projects is to design, develop, build, test, and deliver interchangeable sustainable energy technological solutions for use by future senior design teams and undergraduate engineering class projects in the KGCOE, beginning fall semester 2013. The SESE projects should demonstrate the core functions of sustainable systems. All work produced should be in an open source / open architecture format, encouraging use of the technologies by others. Capture/Collection Storage Conversion Energy Output (Joules) Energy Output Rate (Watts) Storage Capacity (Joules) Degradation Rate (Watts) Conversion Efficiency (Joules In/Joules Out) Conversion Rate (Watts) Charge Rate (Watts) Discharge Rate (Watts) Packaging (Inches, Pounds) Packaging (Inches, Pounds) Number of Storage Cycles Packaging (Inches, Pounds) Consumption Transmission Management/Control Consumption Voltage (Volts DC) Duty Cycle (%) Distance Between Collection-Conversion-Storage-Consumption (Meters) Transmission Efficiency (Joules In/Joules Out) Energy Threshold (Joules) Energy Rate Threshold (Watts) Continuous Consumption Rate (Watts) Maximum Consumption Rate (Watts) Energy Cost ($/Watts) Packaging (Inches, Pounds)
