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Foundational Courses Renewable Energy Technologies Hydro

Foundational Courses Renewable Energy Technologies Hydro. Presented by the National Renewable Energy Laboratory. Webinar – January 29, 2014. NREL’s Presenter on Hydro Energy is. Robi Robichaud Senior Engineer Wind & Water Program NREL robi.robichaud@nrel.gov Tel: 303-384-6969.

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Foundational Courses Renewable Energy Technologies Hydro

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  1. Foundational Courses Renewable Energy TechnologiesHydro Presented by the National Renewable Energy Laboratory Webinar – January 29, 2014

  2. NREL’s Presenter on Hydro Energy is Robi Robichaud Senior Engineer Wind & Water Program NREL robi.robichaud@nrel.gov Tel: 303-384-6969

  3. Webinar Outline

  4. Commercial or Community Scale? Resource Options • COMMERCIAL SCALE PROJECT Influences Technology Choice • COMMUNITY SCALE PROJECT

  5. Scale of Hydroelectric Power Plants Macro Hydropower • Although definitions vary, DOE defines large hydropower as facilities that have a capacity of more than 30 megawatts (MW). Small Hydropower • Although definitions vary, DOE defines small hydropower as facilities that have a capacity of 100 kilowatts (kW) to 30 MW. Micro Hydropower • A micro hydropower plant has a capacity of up to 100 kW. A small or micro-hydroelectric power system can produce enough electricity for a home, farm, ranch, or village. Source: http://www1.eere.energy.gov/water/hydro_plant_types.html

  6. Types of Hydroelectric Power • Waterwheels, used for hundreds of years to mechanically power mills and machinery. • Hydroelectricity, usually referring to hydroelectric dams or run-of-the-river setups. • Damless hydro, which captures the kinetic energy in rivers, streams, and oceans. • Tidal power, which captures energy from the tides in horizontal direction. • Marine Hydrokinetics, which captures mechanical power from the waves,tides or ocean currentsand uses it to directly or indirectly power a turbine and a generator. Grant County Public Utility District successfully demonstrated a fish-friendly Kaplan turbine runner at Wanapum Dam on the Columbia River in Washington Source: http://www1.eere.energy.gov/water/pdfs/48642.pdf

  7. Traditional Hydroelectric and Siting issues – Impoundment • The most common type ofhydroelectric power plant • Typically a large hydropower system • Uses a dam to store river water in areservoir (impoundment) • Water released from the reservoir flows through a turbine, spinning it, which in turn activates a generator toproduce electricity • Water may be released either to meet changing electricity needs;tomaintain a constant reservoir level; of for other downstream users • Significant impacts on fish, land area; potential hazard of dam breaks • Constraints on siting in seismic areas • No significant installations in U.S. in past 50 years, other countries such as China and Argentina moving forward with large installations Graphics Source: http://www1.eere.energy.gov/water/hydro_plant_types.html

  8. Technology Overview – Power Equation Head Power (kW) = 10 x Flow (m3/s) x Head (m) x  (metric units) Power (kW) = Head (ft) x Flow (ft3/s or cfs) x  /11.8 (imperial units) = turbine-generator efficiency ~80%

  9. Technology Overview and Siting – Diversion Hydro Intake • A diversion, sometimes called run-of-river, facility channels a portion of a river through a canal or penstock • It may not require the use of a dam Outlet • Typically no storage opportunities as with impoundment, lower capital costs due to lack of dam • Fewer concerns with fish and less land area impact than with impoundment Image Sources: Encyclopedia of Alternative Energy

  10. U.S. Electricity Generation 2012 Hydro provides 6-8% of US electricity in most years This is the breakdown of the “Other Renewables” – 5% of US electricity Source: U.S. Energy Information Administration (EIA), May 29, 2012

  11. Primary Fuel Sources for U.S. Net Generation

  12. Costs • High capital costs for hydroelectric projects in general,but typically much higher capacity factors resulting in lower levelized cost of energy (LCOE). Source: http://en.openei.org/apps/TCDB/

  13. Potential Resources • Conventional hydro (low power to large hydro = 62,300 MW): • Capacity gains at large and small hydro = 4,300 MW • New small (<30 MW) and low (<1 MW) hydro = 58,000 MW • New hydro at existing dams = (16,700 MW included above) • [Efficiency gains (4%) = 3,100 MW] • Hydrokinetic = 12,800 MW (tidal only assessed for five states, ocean current not assessed) • Wave Energy = 10,000 to 20,000 MW • Pump storage not assessed • TOTAL = 85,100 to 95,100 MW Virtual Hydropower Prospector Region Selector http://hydropower.inel.gov/prospector/index.shtml

  14. National Hydropower Map Source: http://www1.eere.energy.gov/water/pdfs/national_hydropower_map.pdf

  15. National Hydropower Map – Western U.S. Source: http://www1.eere.energy.gov/water/pdfs/national_hydropower_map.pdf

  16. National Hydropower Map – Western U.S. Source: http://www1.eere.energy.gov/water/pdfs/national_hydropower_map.pdf

  17. National Hydropower Map – Western U.S. Source: http://www1.eere.energy.gov/water/pdfs/national_hydropower_map.pdf

  18. Conventional Hydro Resource Constraints Changing Resource Availability

  19. Wapato Hydropower Project: Successful Example Drop Site 2 Powerhouse Source: Yakama Power

  20. Policy: Federal Energy Regulatory Commission (FERC) The Commission‘s responsibilities include: • Issuance of licenses for the construction of a new project • Issuance of licenses for the continuance of an existing project (relicensing) and new projects • Oversight of all ongoing project operations, including dam safety inspections and environmental monitoring http://ferc.gov/industries/hydropower.asp • Photo: NREL/PIX 13518; Graphic: NREL

  21. Useful Resources • RESOURCE NREL Geographic Information System (GIS) Maps www.nrel.gov/gis/maps.html • TECHNOLOGY Virtual Hydropower Prospector http://hydropower.inel.gov/prospector/index.shtml • POLICY Federal Energy Regulatory Commission (FERC) http://ferc.gov/industries/hydropower.asp

  22. Thank You & Contact Information DOE’S WIND & WATER PROGRAM • http://www1.eere.energy.gov/water/ • http://www1.eere.energy.gov/water/pdfs/48642.pdf DOE’S INDIAN ENERGY PROGRAM • http://apps1.eere.energy.gov/tribalenergy/projects_detail.cfm/project_id=168 • http://apps1.eere.energy.gov/tribalenergy/projects_technology.cfm#Hydropower National Hydrography Dataset – US Geologic Service • http://nhd.usgs.gov/ Oregon State University – PRISM Climate Group • http://www.prism.oregonstate.edu/ Yakama Power • http://www.yakamapower.com/generation.php Robi Robichaud Senior Engineer NREL robi.robichaud@nrel.gov Tel: 303-384-6969

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