Renewable Energy Production (2015): Grades 9, 10, 11, 12, Higher Education

Other Colorado CTE sets

• Accounting (2015): Grades 9, 10, 11, 12, Higher Education
• Administrative Services (2015): Grades 9, 10, 11, 12, Higher Education
• Agribusiness Systems (2015): Grades 9, 10, 11, 12, Higher Education
• Agriculture Cluster (2015): Grades 9, 10, 11, 12, Higher Education
• Animal Science (2015): Grades 9, 10, 11, 12, Higher Education
• Arts, AV and Communication (2015): Grades 9, 10, 11, 12, Higher Education
• Audio/Video Technology & Film (2015): Grades 9, 10, 11, 12, Higher Education
• Banking Services (2015): Grades 9, 10, 11, 12, Higher Education
• Basic Anatomy and Physiology
• Business Information Technology (2015): Grades 9, 10, 11, 12, Higher Education
• Construction (2015): Grades 9, 10, 11, 12, Higher Education
• Consumer Services (2015): Grades 9, 10, 11, 12, Higher Education
• Corporate Finance (2015): Grades 9, 10, 11, 12, Higher Education
• Corporate/General Management (2015): Grades 9, 10, 11, 12, Higher Education
• Counseling and Mental Health Services (2015): Grades 9, 10, 11, 12, Higher Education
• Design and Pre-Construction (2015): Grades 9, 10, 11, 12, Higher Education
• Early Childhood Development (2015): Grades 9, 10, 11, 12, Higher Education
• Education & Training (2015): Grades 9, 10, 11, 12, Higher Education
• Electrical Energy Transmission & Distribution (2015): Grades 9, 10, 11, 12, Higher Education
• Electromechanical Generation & Maintenance (2015): Grades 9, 10, 11, 12, Higher Education
• Emergency and Fire Management (2015): Grades 9, 10, 11, 12, Higher Education
• Energy (2015): Grades 9, 10, 11, 12, Higher Education
• Energy Efficiency & Environmental Technology (2015): Grades 9, 10, 11, 12, Higher Education
• Facility & Mobile Equipment Maintenance (2015): Grades 9, 10, 11, 12, Higher Education
• Family and Community Services (2015): Grades 9, 10, 11, 12, Higher Education
• Finance (2015): Grades 9, 10, 11, 12, Higher Education
• Food Products & Processing Systems (2015): Grades 9, 10, 11, 12, Higher Education
• Fossil Energy Extraction, Processing & Distribution (2015): Grades 9, 10, 11, 12, Higher Education
• Grades 9, 10, 11, 12, Higher Education
• Health (2015): Grades 9, 10, 11, 12, Higher Education
• Human Resource Management (2015): Grades 9, 10, 11, 12, Higher Education
• Information Support and Services (2015): Grades 9, 10, 11, 12, Higher Education
• Insurance (2015): Grades 9, 10, 11, 12, Higher Education
• Interactive Media (2015): Grades 9, 10, 11, 12, Higher Education
• IT Cluster (2015): Grades 9, 10, 11, 12, Higher Education
• Journalism & Broadcasting (2015): Grades 9, 10, 11, 12, Higher Education
• Law Enforcement Services (2015): Grades 9, 10, 11, 12, Higher Education
• Logistics, Planning & Management Services (2015): Grades 9, 10, 11, 12, Higher Education
• Maintenance and Operations (2015): Grades 9, 10, 11, 12, Higher Education
• Maintenance, Installation & Repair (2015): Grades 9, 10, 11, 12, Higher Education
• Management (2015): Grades 9, 10, 11, 12, Higher Education
• Manufacturing Production (2015): Grades 9, 10, 11, 12, Higher Education
• Marketing
• Marketing (2015): Grades 9, 10, 11, 12, Higher Education
• Marketing Communications (2015): Grades 9, 10, 11, 12, Higher Education
• Marketing Management (2015): Grades 9, 10, 11, 12, Higher Education
• Marketing Research (2015): Grades 9, 10, 11, 12, Higher Education
• Natural Resource and Environmental Systems (2015): Grades 9, 10, 11, 12, Higher Education
• Network Systems & Telecommunications (2015): Grades 9, 10, 11, 12, Higher Education
• Operations Management (2015): Grades 9, 10, 11, 12, Higher Education
• Performing Arts (2015): Grades 9, 10, 11, 12, Higher Education
• Personal Care Services (2015): Grades 9, 10, 11, 12, Higher Education
• Postseconday and Workforce Readiness (2015): Grades 9, 10, 11, 12, Higher Education
• Power, Structure, and Technical Systems (2015): Grades 9, 10, 11, 12, Higher Education
• Printing/Publishing (2015): Grades 9, 10, 11, 12, Higher Education
• Professional Sales (2015): Grades 9, 10, 11, 12, Higher Education
• Programming & Software Engineering (2015): Grades 9, 10, 11, 12, Higher Education
• Restaurants and Food & Beverage Services (2015): Grades 9, 10, 11, 12, Higher Education
• Sales and Service (2015): Grades 9, 10, 11, 12, Higher Education
• Securities and Investments (2015): Grades 9, 10, 11, 12, Higher Education
• STEM (2015): Grades 9, 10, 11, 12, Higher Education
• Therapeutic Services (2015): Grades 9, 10, 11, 12, Higher Education
• Transportation Operations (2015): Grades 9, 10, 11, 12, Higher Education
• Visual & Design Arts (2015): Grades 9, 10, 11, 12, Higher Education
• Warehousing & Distribution Center Operations (2015): Grades 9, 10, 11, 12, Higher Education

Define renewable and non renewable in designation of energy sources.RNEP.01.01.a

Classify energy sources currently available into renewable or non-renewable.RNEP.01.01.b

Compare and contrast the advantages and disadvantages of using renewable vs. non-renewable energy sources.RNEP.01.01.c

Describe what happens to the sun's radiation as it passes through the earth's atmosphere and into contact with the earth's crust.RNEP.01.02.a

Determine the effect that atmospheric conditions have on the sun's radiation.RNEP.01.02.b

Explain global dimming and its predicted effect on future solar energy.RNEP.01.02.c

Discuss the capacity of the sun's radiation as a viable energy source.RNEP.01.02.d

Define solar power.RNEP.01.03.a

Trace the evolution of the applications of solar energy.RNEP.01.03.b

Describe the primary applications for solar energy.RNEP.01.03.c

Differentiate plants' use from humans' use of solar energy.RNEP.01.03.d

Compare and contrast the advantages and disadvantages of solar power.RNEP.01.03.e

Analyze direct solar power as a transformation of sunlight into usable forms of energy (e.g., photovoltaic cells creating electricity, thermal mass heating, solar sail on a space craft, direct lighting).RNEP.01.04.a

Describe and diagram indirect solar power as a multiple transformation of sunlight into usable forms of energy (e.g., photosynthesis, hydroelectric dams, wind turbines, ocean thermal energy production, fossil fuels derived from captured vegetation, reflected sunlight).RNEP.01.04.b

Differentiate passive from active solar systems, primarily in building construction.RNEP.01.04.c

Differentiate concentrating (e.g., lenses, mirrors) from non-concentrating (e.g., photovoltaic cells) solar systems.RNEP.01.04.d

Describe the current solar technologies used in architecture (e.g., heating, cooking, lighting, photovoltaic cells).RNEP.01.05.a

Explore the function and operation of solar thermal electric power plants.RNEP.01.05.b

Discuss the function and operation of solar ponds.RNEP.01.05.c

Describe the solar chemical process.RNEP.01.05.d

Compare the relationship between biofuels and solar power.RNEP.01.05.e

Distinguish between the amount of solar radiation contacting the earth's surface, the amount of available power and the amount of delivered power.RNEP.01.06.a

Identify current means for storing solar energy (e.g., thermal mass, batteries, pumped-storage hydroelectricity, hydraulic accumulator).RNEP.01.06.b

Discuss transferring excess power to a grid and drawing it back when needed.RNEP.01.06.c

Discuss consumption in terms of time of day, demand and peak power available.RNEP.01.06.d

Explain the economic issues affecting storage and distribution.RNEP.01.06.e

Analyze current government, international, national and state utility policies on application and financing of solar energy systems.RNEP.01.06.f

Describe the function of each PV cell.RNEP.01.07.a

Trace the production of electricity through PV cells (i.e., from the sun's rays to electrical output).RNEP.01.07.b

Compare and contrast the solar cell with the rechargeable battery.RNEP.01.07.c

Compare and contrast different PV technologies. (e.g., crystalline, thin film, emerging technologies).RNEP.01.07.d

Analyze PV cell performance and the effects of heat and sunlight spectrum.RNEP.01.07.e

Compare and contrast PV cell manufacturing methods in terms of cost, environmental impact, embodied energy and materials.RNEP.01.07.f

Compare solar thermal technologies to solar electrical technologies.RNEP.01.08.a

Describe different types of solar thermal systems (e.g., parabolic, flat plate, solar cooking, evacuated tubes, hot air).RNEP.01.08.b

Identify different delivery methods for solar thermal systems (e.g., closed loop hydronic, open loop hydronic, mass, forced air).RNEP.01.08.c

Research the origin and natural sources of wind.RNEP.01.09.a

Describe how wind is converted into mechanical and electrical energy.RNEP.01.09.b

Identify and explain the function of the basic parts of a wind turbine.RNEP.01.09.c

Correlate wind variability and turbine power.RNEP.01.09.d

Discuss the capacity of wind as a viable energy source.RNEP.01.09.e

Trace the origins and technical development of wind energy.RNEP.01.10.a

Describe the primary applications for wind energy.RNEP.01.10.b

Compare and contrast the differences between small wind, small utility scale and large utility scale projects.RNEP.01.10.c

Identify basic technical factors affecting wind energy (e.g., stand-alone systems, utility interconnection).RNEP.01.10.d

Analyze basic economic factors affecting wind energy (e.g., installation, energy costs, operation, maintenance).RNEP.01.10.e

Compare and contrast the advantages and disadvantages of wind power in relation to location, wildlife and performance.RNEP.01.10.f

Identify and describe different types of small-scale, small utility scale and large utility scale wind turbines for individual, institutional, industrial and community use.RNEP.01.11.a

Discuss the technological developments and capacities of small-scale, small utility scale and large utility scale wind turbines for individual, institutional, industrial and community use.RNEP.01.11.b

Identify and describe basic infrastructure requirements as well as hardware and software systems used to transport, distribute, store and utilize energy produced by small-scale, small utility scale and large utility scale wind turbines.RNEP.01.11.c

Compare and contrast among small-scale, small utility scale and large utility scale turbines other than size.RNEP.01.11.d

Analyze the advantages and disadvantages of each scale in relationship with each other.RNEP.01.11.e

Explain the process of producing electricity from water flow.RNEP.01.12.a

Trace the historical development of hydropower.RNEP.01.12.b

Identify the different types of hydropower installations.RNEP.01.12.c

Describe the geological implications affecting the location of hydropower installations.RNEP.01.12.d

Distinguish potential energy from kinetic energy.RNEP.01.12.e

Calculate the amount of electricity generated in relation to height and speed of water flow.RNEP.01.12.f

Discuss the capability of producing and delivering hydropower for consumption.RNEP.01.12.g

Correlate the relationship between hydropower and thermal installations.RNEP.01.12.h

Describe the societal issues affecting the placement of hydropower facilities.RNEP.01.13.a

Explain the state and federal laws and regulations affecting hydropower installations and production.RNEP.01.13.b

Contrast the economics of installation versus operations and maintenance.RNEP.01.13.c

Discuss the potential for future hydropower installations.RNEP.01.13.d

Explain consumption in terms of time of day, demand and peak power available.RNEP.01.13.e

Differentiate between the advantages and disadvantages of hydropower installations.RNEP.01.13.f

Define geothermal as an energy source.RNEP.01.14.a

Explain the systems and processes of producing energy from geothermal installations.RNEP.01.14.b

Identify the best locations for geothermal power installations.RNEP.01.14.c

Differentiate between the advantages and disadvantages of geothermal power as a viable energy source.RNEP.01.14.d

Describe the primary applications of geothermal energy.RNEP.01.14.e

Explain the economic factors in terms of installation cost versus operation and maintenance.RNEP.01.14.f

Describe the environmental implications of geothermal power installations.RNEP.01.14.g

Explain the process of producing electricity from biomass.RNEP.01.15.a

Trace the historical development of biomass sources.RNEP.01.15.b

Identify the different types of biomass installations.RNEP.01.15.c

Describe the implications affecting the location of biomass installations.RNEP.01.15.d

Distinguish potential energy from kinetic energy.RNEP.01.15.e

Calculate the amount of electricity generated from different biomass fuel sources.RNEP.01.15.f

Discuss the capability to produce and deliver biomass energy for consumption.RNEP.01.15.g

Compare relationship between biomass and biodiesel fuels.RNEP.01.15.h

Analyze the societal issues affecting the placement of biomass (e.g., sorghum, bagasse) facilities.RNEP.01.15.i

Identify the state and federal laws and regulations affecting biomass installations and production.RNEP.01.15.j

Discuss the potential for future biomass/fossil fuel installations.RNEP.01.15.k

Differentiate the advantages of biomass/fossil fuel installations.RNEP.01.15.l

Explain the disadvantages of biomass/fossil fuel installations (e.g., ecological, geographical, carbon dioxide).RNEP.01.15.m

Trace the evolution of biodiesel from its origin.RNEP.01.16.a

Justify biodiesel as an energy source.RNEP.01.16.b

Explain the process of producing energy from biodiesel.RNEP.01.16.c

Diagram the production process and raw materials used to produce biodiesel.RNEP.01.16.d

Compare the efficiencies of raw materials used to produce biodiesel.RNEP.01.16.e

Describe the co-products in the production of biodiesel.RNEP.01.16.f

Identify the physical properties and technical standards of biodiesel as an energy source.RNEP.01.16.g

Evaluate the primary applications of biodiesel energy.RNEP.01.16.h

Identify engine modifications that are necessary to utilize biodiesel.RNEP.01.16.i

Investigate improvements in engine design and denaturants for biodiesel use.RNEP.01.16.j

Describe the concerns about gelling and water.RNEP.01.16.k

Compare and contrast the advantages and disadvantages of biodiesel as a viable energy source.RNEP.01.17.a

Compare the economic factors of biodiesel to other fuels.RNEP.01.17.b

Identify the environmental implications of biodiesel.RNEP.01.17.c

Explain the current status for production, storage and distribution facilities.RNEP.01.17.d

Trace the evolution of ethanol from its origin.RNEP.01.18.a

Explain the processes of producing energy from ethanol.RNEP.01.18.b

Diagram the production processes and raw materials used to produce ethanol.RNEP.01.18.c

Compare the efficiencies of raw materials used to produce ethanol.RNEP.01.18.d

Describe the co-products in the production of ethanol.RNEP.01.18.e

Identify the physical properties and technical standards of ethanol as an energy source.RNEP.01.18.f

Hypothesize the different sources of ethanol.RNEP.01.18.g

Describe the primary applications of ethanol energy.RNEP.01.18.h

Identify engine modifications that are necessary to utilize ethanol.RNEP.01.18.i

Investigate improvements in engine design and denaturants for ethanol use.RNEP.01.18.j

Compare and contrast the advantages and disadvantages of ethanol as a viable energy source.RNEP.01.19.a

Compare the economic factors of ethanol to other fuels.RNEP.01.19.b

Describe the environmental implications of ethanol.RNEP.01.19.c

Explain the current status for production, storage and distribution facilities.RNEP.01.19.d

Describe ethanol logistics. (e.g., rail, blending, distribution).RNEP.01.19.e

Identify and describe raw material logistics for ethanol.RNEP.01.19.f

Explore the markets for different blends of ethanol and co-products.RNEP.01.19.g

Diagram the political timeline of ethanol.RNEP.01.19.h